Abdikamalov | Askar | An Extension Of The Relxill X-Ray Reflection Model For Non-Kerr Spacetimes | China | B1: Relativistic astrophysics |
Abedi | Jahed | Tails And Tails Of Tails: Probing Event Horizon Via Gravitational Waves | Germany | C6: Gravitational waves: Relativity and Fundamental physics |
Abedi | Jahed | Echoes From The Abyss: A Highly Spinning Black Hole Remnant For The Binary Neutron Star Merger Gw170817 | Germany | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Acquaviva | Giovanni | Gravitational Energy-Momentum And Thermodynamics | Czech republic | A2: Mathematical relativity and classical gravitation |
Adamo | Tim | Aspects Of Perturbation Theory With A Cosmological Constant | United Kingdom | A4: Complex and conformal methods in classical and quantum gravity |
Addazi | Andrea | Gravitational Echoes From Exotic Compact Objects | China | C6: Gravitational waves: Relativity and Fundamental physics |
Afonso | Victor | Compact Scalar Objects In Ricci-Based Modified Gravity Theories | Brazil | A3: Modified theories of gravity (theoretical aspects) |
Aggarwal | Nancy | Room Temperature Optomechanical Squeezing | United States of America | C4: Concepts and Research towards 3G Detectors |
Aguayo-Ortiz | Alejandro | Chocked Accretion: A Hydrodynamical Jet-Launching Mechanisim | Mexico | B1: Relativistic astrophysics |
Aguayo-Ortiz | Alejandro | Relativistic Wind Accretion Onto A Schwarzschild Black Hole | Mexico | B1: Relativistic astrophysics |
Aiello | Lorenzo | Characterization Of An Acousto-Optic Deflector For The Correction Of Asymmetric Wavefront Distortions Through High Speed Co2 Beam Scanning | Italy | C3: Progress and Challenges in Advanced Ground Based Detectors |
Aiello | Lorenzo | Development Of A Dc Adaptive Actuator For Optical Aberration Correction In Future Gravitational Wave Detectors | Italy | C4: Concepts and Research towards 3G Detectors |
Akcay | Sarp | Recent Progress In Teobresums | Germany | B3: Approximations, perturbation theory, and their applications |
Alavi | Ali (In Passport: Seyed Ali Asghar) | Neutrino Spin Oscillations In Gravitational Fields In Higher Dimensions | Iran | A2: Mathematical relativity and classical gravitation |
Alcubierre | Miguel | L-Boson Stars | Mexico | B2: Numerical relativity |
Alho | Artur | Spherically Symmetric, Steady States Of Newtonian Self-Gravitating Elastic Matter | Portugal | A2: Mathematical relativity and classical gravitation |
Alho | Artur | Dynamical Systems In Perturbative Cosmology | Portugal | B4: Cosmology: Theory and observations |
Almeida | Gabriel Luz | A Class Of Integrable Metrics Coupled To Gauge Fields | Brazil | A1: Exact solutions and their interpretation |
Alonso-Serrano | Ana | Coarse-Graining And Entropy Analysis In Black Hole Evaporation | Germany | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Altaha Motahar | Zahra | Axial Quasi-Normal Modes Of Neutron Stars In Massive Scalar-Tensor Theory | Germany | A3: Modified theories of gravity (theoretical aspects) |
Amadei | Lautaro | Unitarity And Information In Quantum Gravity: A Simple Example | France | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Amadei | Lautaro | Unitarity And Information In Quantum Gravity: A Simple Example | France | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Amati | Lorenzo | The Transient High-Energy Sky And Early Universe Surveyor (Theseus) | Italy | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Amato | Alex | High-Quality Oxide Coating Materials For Gravitational-Wave Detectors: Optical And Mechanical Properties Correlation And Future Developments | France | C3: Progress and Challenges in Advanced Ground Based Detectors |
Anantua | Richard | Probing Near-Horizon Scales In General Relativistic Magnetohydrodynamic Simulations | United States of America | B1: Relativistic astrophysics |
Andersen | Thomas | Bohmian Trajectory Quantum Gravity | Canada | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Anderson | Paul | Black Hole Evaporation: Approach To A Thermal Spectrum | United States of America | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
André | Rui | Black Hole Thermodynamics In The Canonical Ensemble And Higher Dimensions | Portugal | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Andreasson | Håkan | Approximating Gravitational Collapse For Dust With Vlasov Matter | Sweden | A2: Mathematical relativity and classical gravitation |
Andresen | Haakon | Gravitational Waves From Core-Collapse Supernovae | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Annulli | Lorenzo | Electromagnetism And Hidden Vector Fields In Modified Gravity Theories: Spontaneous And Induced Vectorization | Portugal | A3: Modified theories of gravity (theoretical aspects) |
Annulli | Lorenzo | Scattering Of Scalar, Electromagnetic, And Gravitational Waves From Binary Systems | Portugal | C6: Gravitational waves: Relativity and Fundamental physics |
Antonelli | Andrea | Energetics Of Two-Body Hamiltonians In Post-Minkowskian Gravity | Italy | B3: Approximations, perturbation theory, and their applications |
Aparicio | Miguel | Parametrizing Modified Gravities With Vector Degrees Of Freedom: Anisotropic Growth And Lensing | Spain | A3: Modified theories of gravity (theoretical aspects) |
Arca Sedda | Manuel | Intermediate-Mass Ratio Inspirals In Galactic Nuclei | Germany | C5: LISA and other Space Based Detectors |
Arca Sedda | Manuel | Birth, Life And Death Of Black Hole Binaries In Galactic Nuclei | Germany | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Arderucio Costa | Bruno | Laws Of Black Hole Thermodynamics In Semiclassical Gravity | Canada | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Argañaraz | Marcos Ariel | Round Null Surfaces In Kerr Space-Time | Argentina | A1: Exact solutions and their interpretation |
Arjona Fernández | Rubén | Unravelling The Effective Fluid Approach For Modify Gravity And Dark Energy Models | Spain | A3: Modified theories of gravity (theoretical aspects) |
Arnaud | Nicolas | Virgo Detector Characterization Activities During The O3 Run: From Latency To Gravitational-Wave Event Validation | France | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Arnaud | Nicolas | Status And Performance Of The Advanced Virgo Detector During The Observation Run 3 | France | C3: Progress and Challenges in Advanced Ground Based Detectors |
Arrechea | Julio | Semiclassical Stellar Hydrostatic Equilibrium | Spain | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Artale | Maria Celeste | Host Galaxies Of Merging Compact Objects | Austria | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Ascenzi | Stefano | A Luminosity Distribution For Kilonovae Based On Short Gamma-Ray Burst Afterglows | Italy | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Ashtekar | Abhay | Loop Quantum Gravity: Basics And Some Recent Advances | United States of America | Plenary Session |
Ashton | Gregory | Gravitational Wave Detection: A Fully Bayesian Approach | Australia | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Atrio-Barandela | Fernando | Measuring Angular Diameter Distances Out To Z~10 With The Cosmic Infrared Background Fluctutations | Spain | B4: Cosmology: Theory and observations |
Badaracco | Francesca | Cancellation Of Gravity Noise In Underground Detectors | Italy | C4: Concepts and Research towards 3G Detectors |
Baghi | Quentin | Listening To Gravity With Lisa From Incomplete Measurements: A Bayesian Data Augmentation Method | United States of America | C5: LISA and other Space Based Detectors |
Bailes | Matthew | The Meertime Key Science Project On Pulsar Timing | Australia | C1: Pulsar Timing Arrays |
Bailes | Matthew | Ozgrav Public Outreach Virtual And Mixed Reality Toolkits | Australia | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Bailes | Matthew | Ozgrav Public Outreach Virtual And Mixed Reality Toolkits | Australia | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Baker | Paul | Ipta Data Release 2: Preliminary Limits On A Stochastic Background Of Gws From Smbh Binaries | United States of America | C1: Pulsar Timing Arrays |
Balakumar | Visakan | Hadamard Renormalisation Of Charged Scalar Fields | United Kingdom | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Bantilan | Hans | Dynamics Of Black Holes In A Confining Background | United Kingdom | D2: Gravitational aspects of String Theory |
Barceló | Carlos | Generalizad No-Hair Theorem For Ultracompact Alternatives To Black Holes | Spain | C6: Gravitational waves: Relativity and Fundamental physics |
Barranco | Juan | Self-Gravitating Black Hole Scalar Wigs And The $M_{Bh}-\Sigma$ Relation | Mexico | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Barroso Silveira | Vitor | Vacuum Fluctuations In Non-Globally Hyperbolic Spacetimes | Brazil | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Barsotti | Lisa | The Future Of Ground-Based Gw Detection: Instruments And Science | Albania | Plenary Session |
Batista | Carlos | On The Integrability Of Einstein'S Equation And Killing Tensors | Brazil | A1: Exact solutions and their interpretation |
Batista | Carlos | Spinorial Formalism And Symmetries In Six Dimensions | Brazil | A2: Mathematical relativity and classical gravitation |
Bayle | Jean-Baptiste | Time-Delay Interferometry: Modeling And Simulating Laser Frequency Noise In Lisa | France | C5: LISA and other Space Based Detectors |
Bayle | Jean-Baptiste | Time-Delay Interferometry: Challenges To Modeling And Simulating Instrumental Imperfections For Lisa | France | C9: Experimental gravitation |
Becerril Barcenas | Ricardo | Black Holes Parameters From Redshifts And Blueshifts Of Photons Emitted By Geodesic Particles Orbiting Around Them. | Mexico | A2: Mathematical relativity and classical gravitation |
Beheshtipour | Banafsheh | Clustering Observational Data Using Deep Learning Network | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Bejarano | Cecilia | Projective Invariance In F(T) Gravity | Argentina | A3: Modified theories of gravity (theoretical aspects) |
Belahcene | Imene | Search For Gravitational-Wave Signals Produced By Cosmic Strings In The Advanced Ligo-Virgo Data. | France | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Belgacem | Enis | Studying Modified Gravitational-Wave Propagation With Lisa | Switzerland | B5: Gravitational waves and Cosmology |
Beltrán-Palau | Pau | The Hyperbolic Einstein-Rosen Bridge | Spain | A2: Mathematical relativity and classical gravitation |
Beltrán-Palau | Pau | Adiabatic Invariance In The Creation Of Particles By Gravitational And Electromagnetic Fields | Spain | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Benone | Carolina | Clouds In A Static Fluid | Brazil | A2: Mathematical relativity and classical gravitation |
Bera | Sayantani | Gravitational Radiation From Binary Neutron Stars In A Fourth Order Gravity Model | India | A3: Modified theories of gravity (theoretical aspects) |
Bera | Sayantani | Cosmological Evolution Of Perturbations In A Model Of Superfluid Dark Matter | India | B4: Cosmology: Theory and observations |
Bernal | Argelia | Stability Of L-Boson Stars Under Linear Perturbations | Mexico | B3: Approximations, perturbation theory, and their applications |
Berry | Christopher | Understanding The Evolution Of Stellar-Mass Black Hole Binaries | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Berti | Emanuele | Self-Interactions And Spontaneous Black Hole Scalarization | United States of America | A3: Modified theories of gravity (theoretical aspects) |
Berti | Emanuele | Parametrized Black Hole Quasinormal Ringdown | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Bessa | Vitor | Global Dynamics Of So(3) Yang-Mills And Perfect Fluid Cosmology | Portugal | B4: Cosmology: Theory and observations |
Bettoni | Dario | Spectator Fields On A Roller Coaster: Gravitational Waves From Short-Lived Cosmic Strings | Spain | B5: Gravitational waves and Cosmology |
Bhagwat | Swetha | Detectability Of The Second Mode In Binary Black Hole Ringdown | Italy | C6: Gravitational waves: Relativity and Fundamental physics |
Bhattacharyya | Soham | Distinguishing Between General Relativity And Modified Theories Of Gravity Using Quasi-Normal Modes | Spain | A3: Modified theories of gravity (theoretical aspects) |
Bhattacharyya | Maitraya | Analytical And Numerical Treatment Of Perturbed Black Holes In Horizon-Penetrating Coordinates | India | B2: Numerical relativity |
Bianchi | Eugenio | Entanglement Entropy In Lqg: Analytical And Numerical Results | United States of America | D1: Loop quantum gravity and spin foams |
Bianchi | Eugenio | Black Hole Entropy And Gravitational Wave Observations: A Mechanism For Small Primordial Spins | United States of America | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Bischof | Lea | Investigating An Optimal Backlink Candidate For Lisa | Germany | C5: LISA and other Space Based Detectors |
Biswas | Bhaskar | The Tidal Deformability Of An Anisotropic Compact Star: Implications For Gw170817 | India | C6: Gravitational waves: Relativity and Fundamental physics |
Blair | David | Next Challenges In Gravitational Wave Astronomy | Australia | C4: Concepts and Research towards 3G Detectors |
Blanchet | Luc | Balance Equations For Linear Momentum And Center Of Mass Of Isolated Post-Newtonian Systems | France | B3: Approximations, perturbation theory, and their applications |
Blixt | Daniel | Teleparallel Bigravity | Estonia | A3: Modified theories of gravity (theoretical aspects) |
Blixt | Daniel | Teleparallel Bigravity | Estonia | A3: Modified theories of gravity (theoretical aspects) |
Bochner | Brett | Analyzing The Propagation Of Electromagnetic Radiation For Plane-Symmetric, Non-Frw Early Universe Cosmologies | United States of America | A2: Mathematical relativity and classical gravitation |
Bode | Nina | Laser Amplification And Coherent Beam Combination For Gravitational Wave Detectors | Germany | C3: Progress and Challenges in Advanced Ground Based Detectors |
Boero | Ezequiel | New Gravitational Lens Equations For Black Holes With Angular Momentum | Argentina | B1: Relativistic astrophysics |
Boero | Ezequiel | General Gravitational Lenses Of Cosmological Systems | Argentina | B4: Cosmology: Theory and observations |
Boitier | Adrian | Sensitivity Of Pulsar Timing Arrays Towards Polarizations Of Gravitational Waves | Germany | C1: Pulsar Timing Arrays |
Bona | Carles | 3+2 Cosmology: The General Solution | Spain | B4: Cosmology: Theory and observations |
Bonetti | Matteo | Massive Black Hole Triplets As Lisa Sources | Italy | C5: LISA and other Space Based Detectors |
Bonga | Beatrice | Tidal Resonance In Extreme Mass-Ratio Inspirals | Canada | C6: Gravitational waves: Relativity and Fundamental physics |
Born | Michael | Test Stand For Lisa Laser Phase Fidelity | Germany | C5: LISA and other Space Based Detectors |
Bortoli | Fabio Da Silva | A Brodband Detector For An Experiment To Measure The Speed Of Gravity In Short Distances | | C9: Experimental gravitation |
Bosch | Pablo | Bbh & "Em" Fields: Em Counterparts And Beyond Gr | Canada | B2: Numerical relativity |
Bose | Sukanta | Tidal Love Numbers Of Black Holes And Neutron Stars In The Presence Of Higher Dimensions: Implications Of Gw170817 | India | A3: Modified theories of gravity (theoretical aspects) |
Bose | Sukanta | Constraining The Neutron-Matter Equation Of State With Gravitational Waves | India | C6: Gravitational waves: Relativity and Fundamental physics |
Botta | Gioele | New Cosmological Dynamics In Quantum Reduced Loop Gravity | Poland | D1: Loop quantum gravity and spin foams |
Bouffanais | Yann | Unraveling Formation Channels Of Binary Black Holes | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Boyanov | Valentin | Semiclassical Gravity Effects Near Horizon Formation | Spain | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Bradley | Michael | Perturbations Of Locally Rotationally Symmetric Cosmologies | Sweden | B3: Approximations, perturbation theory, and their applications |
Brassel | Byron | Collapsing Radiation Shells In Einstei-Gauss-Bonnet Gravity | South Africa | A3: Modified theories of gravity (theoretical aspects) |
Breschi | Matteo | Time-Domain Post-Merger Model For Non-Spinning Binary Neutron Stars | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Brito | Richard | The Stochastic Gravitational-Wave Background In The Absence Of Horizons | Italy | C6: Gravitational waves: Relativity and Fundamental physics |
Brizuela | David | A Semiclassical Framework For Quantum Geometrodynamics During Inflation | Spain | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Brügmann | Bernd | Hyperbolic Relaxation Method For Elliptic Equations In Numerical Relativity | Germany | B2: Numerical relativity |
Bsaibes | Thomas | Setting Stronger Dark Sector Limits On Monopole-Monopole And Monopole-Dipole Interactions Using Cylinders | United States of America | C9: Experimental gravitation |
Buikema | Aaron | Advanced Ligo Detectors In O3 | United States of America | C3: Progress and Challenges in Advanced Ground Based Detectors |
Buoninfante | Luca | Nonlocal Generalizations Of Gravity And Galilean Theories | Italy | A3: Modified theories of gravity (theoretical aspects) |
Burke | Ollie | Prospects For Identifying Near-Extremal Black Holes Using Lisa | Spain | C5: LISA and other Space Based Detectors |
Cabero Müller | Miriam | Tests Of General With The Binary Black Hole Signals From The Ligo-Virgo Catalog Gwtc-1 | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Cai | Qingyu | Correlation And The Black Hole Information Loss Paradox | China | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Calderon Bustillo | Juan | The Black Hole Always Chirps Twice | Australia | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Cano | Pablo A. | Leading Higher-Derivative Corrections To Kerr Geometry | Spain | A3: Modified theories of gravity (theoretical aspects) |
Capano | Collin | The Optimal Filter For Testing General Relativity With Gravitational Waves | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Carballo-Rubio | Raul | Metrology Of Horizons | Italy | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Cardenas-Avendano | Alejandro | Experimental Relativity With Observations Of The Accretion Disk Continuum Spectrum | United States of America | A3: Modified theories of gravity (theoretical aspects) |
Cardenas-Avendano | Alejandro | Is There Chaos During Extreme Mass-Ratio Inspirals In Dynamical Chern-Simons Gravity? | United States of America | B3: Approximations, perturbation theory, and their applications |
Cardenas-Avendano | Alejandro | A Comparison Between The Gravitational Wave And The X-Ray Spectroscopy Approaches | United States of America | C9: Experimental gravitation |
Cardoso Ramos Rodrigues | João Paulo | Traces Of The Unruh Effect In Surface Waves | Brazil | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Carlip | Steven | How To Hide A Cosmological Constant | United States of America | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Carranza Ortiz | Diego Antonio | Construction Of Ads-Like Spacetimes: The Tracefree Matter Case | United Kingdom | A4: Complex and conformal methods in classical and quantum gravity |
Carrasco | Federico | Triggering Magnetar Outbursts In 3D Force-Free Simulations | Germany | B1: Relativistic astrophysics |
Carter | Jonathan | Optomechanical Accelerometers In High Qg | Germany | C4: Concepts and Research towards 3G Detectors |
Carullo | Gregorio | Observational Black Hole Spectroscopy: A Time-Domain Multimode Analysis Of Gw150914 | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Casanueva Diaz | Julia | Longitudinal Control Of Marginally Stable Interferometers | Italy | C3: Progress and Challenges in Advanced Ground Based Detectors |
Castelli | Eleonora | Lisa Pathfinder Final Noise Performance: Effect Of Disturbances On The Low Frequency Noise And Projection To Lisa | Italy | C5: LISA and other Space Based Detectors |
Cavaglia | Marco | Improving The Chances Of Gravitational-Wave Detection From Core-Collapse Supernovae With A Single Interferometer | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Cerdá-Durán | Pablo | Towards Asteroseismology Of Core-Collapse Supernovae With Gravitational Wave Observations | Spain | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Cervantes | Jorge | Perturbation Theory For Biased Tracers In Modified Gravity | Mexico | A3: Modified theories of gravity (theoretical aspects) |
Chakraborty | Sumanta | Various Windows To Understand Extra Dimensions | India | A3: Modified theories of gravity (theoretical aspects) |
Chakraborty | Sumanta | Fate Of Extra Dimensions In Light Of Gw170817 | India | C6: Gravitational waves: Relativity and Fundamental physics |
Chakraborty | Sumanta | Gravity, Null Surfaces And Thermodynamics | India | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Chalumeau | Aurélien | Impact Of Planetary Ephemerides On Gravitational Wave Searches With Pulsar Timing Arrays | France | C1: Pulsar Timing Arrays |
Charzy?ski | Szymon | Trapping And Guiding Bodies By Gravitational Waves Endowed With Angular Momentum | Poland | A2: Mathematical relativity and classical gravitation |
Chatziioannou | Katerina | Multimessenger Astrophysics With Gravitational Waves | United States of America | Plenary Session |
Chaurasia | Swami Vivekanandji | Eccentric Binary Neutron Stars In Numerical Relativity | Germany | B2: Numerical relativity |
Chen | Xian | Extreme-Mass-Ratio Inspirals Produced By Tidal Capture Of Binary Black Holes | China | B1: Relativistic astrophysics |
Chen | Siyuan | Constraining Galaxy And Black Hole Binary Mergers With Pulsars | France | C1: Pulsar Timing Arrays |
Chen | Hsin-Yu | Distinguishing Binary Neutron Star From Neutron Star-Black Hole Mergers With Gravitational Waves | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Chen | Xian | Extreme-Mass-Ratio Inspirals Produced By Tidal Capture Of Binary Black Holes | China | C5: LISA and other Space Based Detectors |
Chen | Baoyi | Instability Of Exotic Compact Objects And Its Implications For Gravitational-Wave Echoes | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Cheong | Patrick Chi-Kit | Numerical General Relativistic Simulations: Collapse Collapse Supernovae And Neutron Stars Astrophysics | Hong Kong | B2: Numerical relativity |
Cherkas | Sergey | The Equation Of Vacuum State And The Structure Formation In Universe | Belarus | B4: Cosmology: Theory and observations |
Cholayil | Muhammed Saleem | Improving Parametrised Tests Of General Relativity Using Singular Value Decomposition | India | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Chua | Alvin | There And Back Again: Learning Forward/Inverse Solutions In Gravitational-Wave Inference | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Ciolfi | Riccardo | Short Gamma-Ray Bursts And Multimessenger Astrophysics | Italy | B1: Relativistic astrophysics |
Ciolfi | Riccardo | Binary Neutron Star Mergers As Short Gamma-Ray Burst Central Engines | Italy | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Cirone | Alessio | Newtonian Noise Cancellation With Deep Learning | Italy | C4: Concepts and Research towards 3G Detectors |
Clément | Gérard | Stationary Magnetized Double Black Holes | France | A1: Exact solutions and their interpretation |
Colleoni | Marta | A Catalogue Of Multi-Mode Waveforms For Black-Hole Coalescence | Spain | B2: Numerical relativity |
Congedo | Giuseppe | Joint Cosmological Inference Of Standard Sirens And Gravitational Wave Weak Lensing | United Kingdom | B5: Gravitational waves and Cosmology |
Conti | Livia | Summary Of Virgo Outreach Activities | Italy | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Cordero-Carrión | Isabel | An Overview On The Outreach Activities In The Virgo Group In Valencia | Spain | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Corral-Bustamante | R. Leticia | Modeled Of Images Of Sgr A* With Relativistic Equations | Mexico | B2: Numerical relativity |
Corral-Bustamante | R. Leticia | Modeling Gravitational Waves Through Time | Mexico | C6: Gravitational waves: Relativity and Fundamental physics |
Costa | Luis Filipe | Gravitomagnetism In The Lewis Cylindrical Metrics | Portugal | A1: Exact solutions and their interpretation |
Costa | Filipe | The Gravitational "Magnus" Effect | Portugal | B1: Relativistic astrophysics |
Cotesta | Roberto | Enriching The Symphony Of Gravitational Waves From Binary Black Holes By Tuning Higher Harmonics | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Covas | Pep | All-Sky Search For Continuous Gravitational Waves From Isolated Neutron Stars Using Advanced Ligo O2 Data | Spain | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Cozzella | Gabriel | Proposal For Observing The Unruh Effect Using Classical Electrodynamics | Brazil | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Crisostomi | Marco | Rotating Black Holes In Higher Order Gravity | France | A3: Modified theories of gravity (theoretical aspects) |
Crisostomi | Marco | Dark Energy After Gw170817 | France | B5: Gravitational waves and Cosmology |
Crispino | Luis | Absorption Of Electromagnetic Plane Waves By Rotating Black Holes | Brazil | A2: Mathematical relativity and classical gravitation |
Croft | Robin | Using Grchombo To Simulate Boson Stars | United Kingdom | B2: Numerical relativity |
Cruz | Alejandro | Gravitational Waves From Long-Time Evolution Of Tilted Thick Disc Around A Rotating Black Hole | Spain | B2: Numerical relativity |
Csukás | Károly | On The Asymptotics Of Initial Data By Evolutionary Solvers | Hungary | B2: Numerical relativity |
Cullen | Torrey | Quantum Back Action Cancellation In The Audio Band | United States of America | C4: Concepts and Research towards 3G Detectors |
Cunha | Pedro | Light Ring Stability In Ultra-Compact Objects | Portugal | B1: Relativistic astrophysics |
Cuoco | Elena | Wavefier: A Prototype For Real Time Transient Signals Classifier | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Da Silva Venâncio | Joás | Quasinormal Modes Of Dirac And Gravitational Fields In Generalized Nariai Spacetimes | Brazil | A2: Mathematical relativity and classical gravitation |
Daghigh | Ramin | Quantum Mechanics Of The Interior Of The Russo-Susskind-Thorlacius Black Hole | United States of America | A3: Modified theories of gravity (theoretical aspects) |
Dal Bosco | Davide | On-Ground Torsion Pendulum Testing For Lisa: Force Noise Performances And Charge Management System Investigation | Italy | C5: LISA and other Space Based Detectors |
Dal Canton | Tito | Detectability Of Modulated X-Rays From Lisa'S Supermassive Black Hole Mergers | United States of America | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
D'Antonio | Sabrina | An Extended All-Sky Search For Continuous Gravitational Waves With The Frequencyhough Pipeline | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Daverio | David | Numerical Relativity Methods For Cosmological N-Body Simulations | United Kingdom | B2: Numerical relativity |
De Araujo | Jose Carlos | Primordial Gravitational Waves In Horndeski Gravity | Brazil | B5: Gravitational waves and Cosmology |
De La Cruz Dombriz | Alvaro | Latest Constraints On Modified Gravities From Large-Scale Structures | Spain | A3: Modified theories of gravity (theoretical aspects) |
De Lorenzo | Tommaso | Volume Inside Old Black Hole, Or How To Store Our Universe Inside A Ping Pong Ball | United States of America | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
De Lorenzo | Tommaso | Light Cone Black Holes | United States of America | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
De Martino | Ivan | Sunyaev-Zeldovich Effect As A Tool To Probe Fundamental Physics | Spain | B4: Cosmology: Theory and observations |
Degollado | Juan Carlos | Dynamics Of Scalar Fields Around Black Holes | Mexico | B2: Numerical relativity |
Del Rio Vega | Adrian | Handedness Of Photons And Gravitational Wave Polarization. | Portugal | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Delgado | Jorge | Kerr Black Holes With Synchronised Scalar Hair And Higher Azimuthal Harmonic Index | Portugal | B2: Numerical relativity |
Delhom I Latorre | Adrià | Ghosts In Metric-Affine Gravity | Spain | A3: Modified theories of gravity (theoretical aspects) |
Delhom I Latorre | Adrià | Observable Traces Of Non-Metricity: New Constraints On Metric-Affine Gravity | Spain | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
D'Emilio | Virginia | The Effects Of Mass Distribution Assumptions On Bbh Population Inference | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Dent | Thomas | The Pycbc Search Pipeline For Binary Merger Signals In O3 | Spain | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Dergachev | Vladimir | Loosely Coherent Searches For Continuous Waves | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Deshamukhya | Atri | Tachyonic Scalar Fields And Black Hole Geometry | India | A3: Modified theories of gravity (theoretical aspects) |
Destounis | Kyriakos | Strong Cosmic Censorship In Charged Black-Hole Spacetimes | Portugal | A2: Mathematical relativity and classical gravitation |
Dhankar | Praveen Kumar | (2+1)- Dimensional Starbinsky Cosmological Models In F (R) Gravity With ?(R, T) | India | B4: Cosmology: Theory and observations |
Di Filippo | Francesco | Singularity Avoidance: Possibilities And Implications | Italy | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Di Giovanni | Fabrizio | Dynamical Formation Of Proca Stars And Quasi-Stationary Solitonic Objects | Spain | B2: Numerical relativity |
Di Palma | Irene | A Nonlinear Analysis Of Gravitational Waves From Core-Collapse Supernovae | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Dias | Oscar | Localised And Nonuniform Thermal States Of Sym On A Circle | United Kingdom | D2: Gravitational aspects of String Theory |
Diaz | Mario Claudio | The Toros Collaboration Optical Follow-Up Of Gravitational Wave Transients | United States of America | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Dickau | Jonathan | Massive Gravity Illustrated In The Mandelbrot Set | United States of America | A3: Modified theories of gravity (theoretical aspects) |
Dickau | Jonathan | Theories Of Quantum And Analog Gravity Represented In The Mandelbrot Set | United States of America | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Dietrich | Tim | A Multi-Messenger Analysis Of Neutron Star Mergers Employing Numerical Relativity Simulations | Netherlands | B2: Numerical relativity |
Dirian | Yves | Cosmological Parameters And Dark Energy With Advanced Gravitational-Wave Detectors | Switzerland | B5: Gravitational waves and Cosmology |
Dobkowski-Ry?ko | Denis | Isolated Horizons And The Petrov Type D Equation | Poland | A2: Mathematical relativity and classical gravitation |
Dong | Jiang | Mr | China | C9: Experimental gravitation |
Doulis | Georgios | Constructing High Precision Numerical Binary Black Hole Initial Data | Poland | B2: Numerical relativity |
Drago | Marco | Search For Gravitational Waves With Short Time Duration In The Advanced Ligo And Virgo | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Dreissigacker | Christoph | Deep-Learning Continuous Gravitational Waves | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Drew | Amelia | Radiation From Global Topological Strings Using Adaptive Mesh Refinement | United Kingdom | B5: Gravitational waves and Cosmology |
Drumond Silva | Jorge | Mass Inflation And Strong Cosmic Censorship For The Spherically Symmetric Einstein-Maxwell-Scalar Field System With A Cosmological Constant And An Exponencial Price Law | Portugal | A2: Mathematical relativity and classical gravitation |
Du | Anbin | Test Of The Gravitational Inverse-Square-Law At The Sub-Millimeter Range With Larger Test Masses And 32-Fold Symmetric Attractor | China | C9: Experimental gravitation |
Duc Thong | Le | White-Dwarf Spectra For Studies Of Time Variation Of The Fine Structure Constant | Vietnam | B4: Cosmology: Theory and observations |
Dudley | Richard | Bec Black Hole Analog With Massive Phonons | United States of America | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Dzhunushaliev | Vladimir | Thin-Shell Toroidal $T^2$-Wormhole | Kazakhstan | A1: Exact solutions and their interpretation |
Dzhunushaliev | Vladimir | Dirac Stars In The Presence Of Maxwell And Proca Fields | Kazakhstan | B1: Relativistic astrophysics |
East | William | Cosmic Censorship And The Fate Of Spheroidal Collapse | Canada | B2: Numerical relativity |
Eichhorn | Astrid | Confronting Quantum Gravity With Data Through Its Interplay With Matter | Denmark | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Emparan | Roberto | Of Funnels, Rivers And Trampolines: The Perils Of Conveying Spacetime Curvature To The Uninitiated | Spain | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Emparan | Roberto | Cosmic Censorship Violation In Black Hole Collisions In Higher Dimensions | Spain | D2: Gravitational aspects of String Theory |
Endrizzi | Andrea | Effect Of Neutrinos On Binary Neutron Star Thermodynamics | Germany | B1: Relativistic astrophysics |
Erlich | Joshua | The Case For Emergent Gravity | United States of America | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Escamilla-Rivera | Celia | New Parametrized Equation Of State For Dark Energy Surveys | Mexico | B4: Cosmology: Theory and observations |
Escudero-Sanz, Mondin, Mcnamara | Isabel,Linda, Paul | Proposed Lisa Telescope Design | Netherlands | C5: LISA and other Space Based Detectors |
Esposito-Farese | Gilles | Hamiltonian Vs Stability In Alternative Theories Of Gravity | France | A3: Modified theories of gravity (theoretical aspects) |
Esteban Delgado | Juan Jose | Phase Metrology System For Lisa | Germany | C5: LISA and other Space Based Detectors |
Estellés | Héctor | A Time Domain Phenomenological Model For Gravitational Waves From Binary Black Hole Coalescence | Spain | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Estevez | Dimitri | Intercalibration Of Advanced Ligo And Advanced Virgo For The Third Observing Run O3 | France | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Etienne | Zachariah | The Blackholes@Home Project: Black Hole Binaries On The Desktop Computer | United States of America | B2: Numerical relativity |
Evans | Matthew | Cosmic Explorer | United States of America | C4: Concepts and Research towards 3G Detectors |
Fajman | David | Stability Of The Milne Model With Matter | Austria | A2: Mathematical relativity and classical gravitation |
Falcke | Heino | Imaging The Event Horizon In The Galactic Center And M87 | Netherlands | Plenary Session |
Faraji | Shokoufe | Thin Accretion Disk Of Distorted Schwarschild Blackhole | Germany | B1: Relativistic astrophysics |
Fasano | Margherita | Constraining The Neutron Star Equation Of State Using Multi-Band Independent Measurements Of Radii And Tidal Deformabilities | Italy | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Fasiello | Matteo | Testing The Inflationary Particle Content With Primordial Gravitational Waves | United Kingdom | B4: Cosmology: Theory and observations |
Fedczyszyn | Piotr | Generalization Of Hubble Law To Conform With Copernican Principle | Poland | B4: Cosmology: Theory and observations |
Feldbrugge | Job | Qantum Incompleteness Of Inflation | Canada | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Feng | Justin | Globally Conserved Currents From Approximate Killing Vectors: Dynamics And Initial Data | Portugal | A2: Mathematical relativity and classical gravitation |
Fernández Barranco | Germán | Photodetection In Lisa | Spain | C5: LISA and other Space Based Detectors |
Fernández Barranco | Germán | Laser Ranging Interferometer On Grace Follow-On: Current Status | Germany | C5: LISA and other Space Based Detectors |
Fernández-Álvarez | Francisco | A Novel Characterisation Of Gravitational Radiation In Asymptotically Flat Space-Times | Spain | A4: Complex and conformal methods in classical and quantum gravity |
Ferraro | Rafael | Cclp Solution Obtained From A Modified Plebanski-Demianski Ansatz | Argentina | A1: Exact solutions and their interpretation |
Ferraro | Rafael | Degrees Of Freedom And Hamiltonian Formalism For F(T) Gravity | Argentina | A3: Modified theories of gravity (theoretical aspects) |
Ferreira | Miguel | Rotating Clumps Of Scalar Field Dark Matter | Portugal | B1: Relativistic astrophysics |
Ferreiro | Antonio | On Running Couplings From Adiabatic Regularization | Spain | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Ferreiro | Antonio | Oscillon Statistics During Preheating | Spain | B4: Cosmology: Theory and observations |
Ferrigno | Carlo | The Contribution Of Integral To The Search Of Gamma-Ray Gw Couterparts | Switzerland | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Fesik | Liudmila | The Method For Targeted Search For Long-Duration Transients From Glitching Pulsars | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Ficek | Filip | The Schrödinger-Newton-Hooke Equation - A Nonrelativistic Limit For Ads Perturbations | Poland | A2: Mathematical relativity and classical gravitation |
Figueras | Pau | Black Hole Instabilities And Violation Of The Weak Cosmic Censorship Conjecture | United Kingdom | D2: Gravitational aspects of String Theory |
Figueroa | Daniel G. | Gravitational Waves And Early Universe Cosmology | Switzerland | B5: Gravitational waves and Cosmology |
Finke | Andreas | Testing Nonlocal Gravity With Lunar Laser Ranging | Switzerland | A3: Modified theories of gravity (theoretical aspects) |
Flaminio | Raffaele | Towards Advanced Virgo Plus | France | C3: Progress and Challenges in Advanced Ground Based Detectors |
Flores | José Luis | Ehlers-Kundt Conjecture About Gravitational Waves And Dynamical Systems | Spain | A2: Mathematical relativity and classical gravitation |
Foffa | Stefano | Uv And Ir Divergencies In The Post-Newtonian Expansion | Switzerland | B3: Approximations, perturbation theory, and their applications |
Forghani | S. Danial | Thin-Shell Wormholes And Symmetry | Turkey | A2: Mathematical relativity and classical gravitation |
Frajuca | Carlos | An Experiment To Measure The Speed Of Gravity In Short Distances | Brazil | C9: Experimental gravitation |
Francis | Samuel | Acquiring The Inter-Satellite Laser Link In The Grace Follow-On Laser Ranging Interferometer | United States of America | C5: LISA and other Space Based Detectors |
Frassino | Antonia Micol | Extended Thermodynamics And Complexity In Gravitational Chern-Simons Theory | Spain | A1: Exact solutions and their interpretation |
Freitas | Gabriel | Renormalization In Curved Space-Times Via A Mode-Decomposition Of The Feynman Green Function | Brazil | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Fujibayashi | Sho | Mass Ejection From Remnants Of Binary Neutron Star Mergers | Germany | B1: Relativistic astrophysics |
Fujii | Yoshinori | Controls For Type-A Seismic Attenuation System For Kagra | Japan | C3: Progress and Challenges in Advanced Ground Based Detectors |
Fulvio | De Persio | Acme - Another Charge Management Electronics | Italy | C5: LISA and other Space Based Detectors |
Gaina | Alexei | Killing Tensors In Gravity And The Quantum Fields Theory | Moldavia | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Gaina | Alexei | The Black Holes Evaporation: A New Paradigm | Moldavia | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Gallo | Emanuel | Weak Lensing In A Plasma Medium And Gravitational Deflection Of Massive Particles Using The Gauss-Bonnet Theorem. Infinite And Finite Distance Corrections And Lensing Observables. | Argentina | B1: Relativistic astrophysics |
Gallo | Emanuel | Weak Lensing In Terms Of Curvature Scalars And Energy-Momentum Tensor For Pure Gravity And Plasma Media | Argentina | B1: Relativistic astrophysics |
Gammaitoni | Luca | Operating Detectors Out Of Equilibrium Can Improve Sensitivity? | Italy | C3: Progress and Challenges in Advanced Ground Based Detectors |
Ganguly | Apratim | Constraining The Fraction Of Compact Dark Matter From Micro Lensing Of Gravitational Waves | India | B5: Gravitational waves and Cosmology |
Gannouji | Radouane | Relativistic Cosmological Large Scale Structures At One-Loop | Chile | B4: Cosmology: Theory and observations |
Gao | Dongfeng | Zaiga: Zhaoshan Long-Baseline Atom Interferometer Gravitation Antenna | China | C3: Progress and Challenges in Advanced Ground Based Detectors |
Garay | Luis J. | Gauge Without Gauge: From Physical To Emergent Gauge Symmetries | Spain | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
García Quirós | Cecilio | Phenomxhm: A Modular, Accurate And Computationally Efficient Waveform Model Including Subdominant Spherical Harmonics And Mode Mixing Effects | Spain | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Garcia-Bellido | Juan | Primordial Black Holes As Dark Matter | Spain | B5: Gravitational waves and Cosmology |
García-Parrado | Alfonso | Type D Conformal Initial Data | Czech republic | A2: Mathematical relativity and classical gravitation |
García-Parrado | Alfonso | Gravitational Radiation And The Evolution Of Gravitational Collapse In Cylindrical Symmetry | Czech republic | C6: Gravitational waves: Relativity and Fundamental physics |
Garfinkle | David | Numerical Simulations Of Spacetime Singularities | United States of America | B2: Numerical relativity |
Gasperin | Edgar | The Weak Null Condition In Free-Evolution: Dual Foliation Ghg With Constraint Damping | Portugal | B2: Numerical relativity |
Gautam | Shalabh | Massive Klein-Gordon Fields On Hyperboloidal Slices | India | B2: Numerical relativity |
Gerosa | Davide | Pick The Right One: Bayesian Model Selection On Catalogs Of Gravitational-Wave Events | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Gerosa | Davide | Space+Ground Multiband Detections. How Many? | United Kingdom | C5: LISA and other Space Based Detectors |
Gettings | Conner | Playing With Gravitational Wave Detectors: Exhibits And Apps For Public Engagement With Gravitational Wave Research | United Kingdom | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Gettings | Conner | Getting Close To Gravity: Developing A Superconducting Torsion Balance To Test The Inverse Square Law Of Gravity | United Kingdom | C9: Experimental gravitation |
Ghosh | Archisman | Cosmology With Gravitational Waves And Galaxy Catalogues | Netherlands | B5: Gravitational waves and Cosmology |
Ghosh | Abhirup | Testing General Relativity Using Observations Of Gravitational Waves From The Inspiral, Merger And Ringdown Of Binary Black Holes | Germany | C6: Gravitational waves: Relativity and Fundamental physics |
Giannakopoulos | Thanasis | Holographic Phase Transitions | Portugal | D2: Gravitational aspects of String Theory |
Giesel | Kristina | The Mukhanov-Sasaki Hamiltonian In The Context Of Adiabatic Vacua And The Lewis-Riesenfeld Invariant | Germany | D1: Loop quantum gravity and spin foams |
Giesler | Matthew | Black Hole Ringdown: The Importance Of Overtones | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Gill | Kiranjyot | Gravitational Wave Astronomy Prospectives For Core-Collapse Supernovae Populations | United States of America | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Gill | Kiranjyot | Gravitational Waves From Fallback Accretion And Black Hole Formation In Long Gamma-Ray Bursts | United States of America | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Gimeno-Soler | Sergio | Magnetized Accretion Disks Around Kerr Black Holes With Scalar Hair | Spain | B1: Relativistic astrophysics |
Ginat | Yonadav Barry | Gravitational Wave Emission By Common-Envelope Evolution Of Binary Stars | Israel | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Gionti | Gabriele, S.J. | Some Features Of The Hamiltonian Analysis Of Asymptotic Safe Quantum Gravity | Vaticano | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Girão | Pedro | Higher Order Linear Stability And Instability Of Reissner-Nordstrom'S Cauchy Horizon | Portugal | A2: Mathematical relativity and classical gravitation |
Gittins | Fabian | Deformations Of Neutron Stars With Elastic Crusts | United Kingdom | B1: Relativistic astrophysics |
Gizbert-Studnicki | Jakub | Causal Dynamical Triangulations On A Torus | Poland | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Glaser | Lisa | Simulating Non-Commutative Geometries - A Focused Talk On Fuzzy Geometries | Austria | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Gödtel | Sandro | Rogue Waves In Selfgravitating Bec | Germany | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Gold | Roman | Implications Of Event Horizon Telescope Observations For General Relativity, Accretion Physics, And Jets | Germany | B1: Relativistic astrophysics |
Gold | Roman | Gravitational Waves From Tidally-Induced F-Modes: Probing Neutron Star Structure | Germany | B2: Numerical relativity |
Goncharov | Boris | Model Selection For Spin Noise In Pulsar Timing Arrays | Australia | C1: Pulsar Timing Arrays |
Goncharov | Boris | Directional Model-Independent Search For Persistent Gravitational Waves In Advanced Ligo’S Data From The First Two Observing Runs | Australia | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Gourgoulhon | Eric | Gr Computations With The Python-Based Free Computer Algebra System Sagemath | France | A2: Mathematical relativity and classical gravitation |
Gourgoulhon | Eric | Detecting Bodies Orbiting The Galactic Center Black Hole Sgr A* With Lisa | France | C5: LISA and other Space Based Detectors |
Gralla | Samuel | Beyond Force-Free Electrodynamics: Effective Field Theory And Bosonization | United States of America | B1: Relativistic astrophysics |
Gralla | Samuel | Black Hole Shadows and Rings | United States of America | Plenary Session |
Grasso | Michele | Ray Tracing,Parallax,Position And Redshift Drift In Numerical Relativity | Poland | B4: Cosmology: Theory and observations |
Gray | Rachel | A Statistical Constraint On The Hubble Constant From The Latest Gravitational Wave Detections | United Kingdom | B5: Gravitational waves and Cosmology |
Green | Stephen | Quasinormal Mode Orthogonality I: Bilinear Form On Hertz Potentials | Germany | A2: Mathematical relativity and classical gravitation |
Gretarsson | Elizabeth | Three Methods For Characterizing Thermo-Optic Noise In Optical Cavities | United States of America | C3: Progress and Challenges in Advanced Ground Based Detectors |
Grimm | Stefan | Multiband Gw Parameter Estimation: A Study Of Future Detectors | Italy | C5: LISA and other Space Based Detectors |
Gu | Chenxia | Numerical Study On The Gregory-Laflamme Instability Of Black Strings By Using Ccz4 Formulation | United Kingdom | B2: Numerical relativity |
Gudrun | Wanner | Optical Simulations For Space Interferometry | Germany | C5: LISA and other Space Based Detectors |
Gundlach | Carsten | The 2-Body Problem In 2+1 Spacetime Dimensions | United Kingdom | A1: Exact solutions and their interpretation |
Gundlach | Carsten | Spherically Symmetric Static Solutions Of Einstein-Vlasov And Their Perturbation Spectrum | United Kingdom | A2: Mathematical relativity and classical gravitation |
Gupta | Anshu | Numerical Studies Of Binary Black Hole (Bbh) Mergers Through Quasi-Local Horizon Characteristics | India | B2: Numerical relativity |
Gutti | Sashideep | Chronology Protection Problem In Modified Kerr Newman Spacetime | India | A3: Modified theories of gravity (theoretical aspects) |
Guzman | Francisco S. | Local Dynamics Of Ultralight Bosonic Dark Matter | Mexico | B4: Cosmology: Theory and observations |
Hackmann | Eva | The Propagation Delay In The Timing Of A Pulsar Orbiting A Supermassive Black Hole | Germany | B1: Relativistic astrophysics |
Hamilton | Eleanor | A Precession Model Tuned To Pn, Perturbation Theory And Numerical Relativity | United Kingdom | B3: Approximations, perturbation theory, and their applications |
Hammad | Fayçal | Spacetime Thermodynamics And Weyl Rescaling | Canada | A2: Mathematical relativity and classical gravitation |
Hanauske | Matthias | Binary Hybrid Star Mergers And The Phase Diagram Of Quantum Chromodynamics | Germany | B1: Relativistic astrophysics |
Hannam | Mark | Exploring Precessing Binaries With Numerical Relativity | United Kingdom | B2: Numerical relativity |
Hannam | Mark | The Impact Of Approximations And Uncertainties On Binary Black Hole Waveform Models | United Kingdom | B3: Approximations, perturbation theory, and their applications |
Hannam | Mark | Quantifying The Importance Of Higher Harmonics In Binary Black Hole Observations | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Hannuksela | Otto | Probing The Existence Of Ultralight Bosons With A Single Gravitational-Wave Measurement | Hong Kong | B5: Gravitational waves and Cosmology |
Harada | Ken-Ichi | Optical Parametric Amplification Using Nonlinear Optical Effect For The Next Generation Gravitational Wave Detector | Japan | C4: Concepts and Research towards 3G Detectors |
Harada | Tomohiro | Particle Creation In Gravitational Collapse To A Horizonless Compact Object | Japan | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Harriott | Tina | Petrov Type-N Solution For The Null-Surface Formulation Of General Relativity In 2+1 Dimensions | Canada | A1: Exact solutions and their interpretation |
Harte | Abraham | Does Geometric Optics Depend On Geometry? | Ireland | B3: Approximations, perturbation theory, and their applications |
Hartwig | Olaf | Time-Delay Interferometry And Clock Noise Calibration For Lisa | Germany | C5: LISA and other Space Based Detectors |
Hasegawa | Kunihiko | Molecular Adsorbed Layer Formation On Cooled Mirrors And Its Impacts On Cryogenic Gravitational Wave Telescopes | Japan | C4: Concepts and Research towards 3G Detectors |
Hawke | Ian | Relativistic Soundproof Models | United Kingdom | B1: Relativistic astrophysics |
Hayes | Fergus | Analysing Beaming Profiles Of Short Gamma-Ray Bursts Using Gravitational Waves | United Kingdom | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Hazboun | Jeffrey | Realistic Sensitivity Curves For Pulsar Timing Arrays | United States of America | C1: Pulsar Timing Arrays |
Hazboun | Jeffrey | Education And Public Outreach Efforts By Pulsar Timing Array Collaborations | United States of America | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Heffernan | Anna | Regularisation Of The Self-Force For Generic Orbits Kerr Spacetime | Canada | B3: Approximations, perturbation theory, and their applications |
Hejda | Filip | Energy Extraction From An Extremal Rotating Electrovacuum Black Hole Through Charged Particle Collisions | Portugal | A1: Exact solutions and their interpretation |
Hendry | Martin | Advocacy And Outreach Activities Of The Lisa Consortium | United Kingdom | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Heng | Ik Siong | A Black Hole Waveform Generator Trained On Numerical Relativity Waveforms | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Hennig | Joerg | Smooth Gowdy-Symmetric Generalised Taub-Nut Solutions In Einstein-Maxwell Theory | New Zeland | A2: Mathematical relativity and classical gravitation |
Henry | Quentin | "Tidal Effects Up To Second Post-Newtonian Order In Inspiralling Binary Neutron-Star Systems" | France | B3: Approximations, perturbation theory, and their applications |
Herdeiro | Carlos | Dynamically Viable Asymptotically Flat Black Holes With Scalar Hair: Superradiant Growth Vs. Scalarisation | Portugal | A3: Modified theories of gravity (theoretical aspects) |
Herman | Nicolas | Detecting Gravitational Waves Using Electromagnetic Cylindrical Cavity | Belgium | C6: Gravitational waves: Relativity and Fundamental physics |
Ho | Jiang Ji | Design Of An Electromagnetic Antenna In The Audio-Frequency Band For Lisa | Spain | C5: LISA and other Space Based Detectors |
Hoehn | Philipp | From Quantum Reference Systems To Quantum General Covariance | Austria | D1: Loop quantum gravity and spin foams |
Högås | Marcus | Gravitational Collapse In Bimetric Gravity | Sweden | A3: Modified theories of gravity (theoretical aspects) |
Holman | Marc | The Equivalence Principles And The Nature Of Gravitation | Canada | A3: Modified theories of gravity (theoretical aspects) |
Holz | Daniel | Review of Standard Sirens With Ground-Based Interferometers | United States of America | B5: Gravitational waves and Cosmology |
Horowitz | Gary | Cosmic Censorship In Anti De Sitter Spacetime | United States of America | D2: Gravitational aspects of String Theory |
Hossein Nouri | Fatemeh | Study The Nonlinear Mode-Tide Coupling Of Coalescing Binary Neutron Stars In Relativistic Formalism | India | B1: Relativistic astrophysics |
Hou | Shaoqi | Strong Equivalence Principle And Gravitational Wave Polarizations In Horndeski Theory | China | B5: Gravitational waves and Cosmology |
Hoy | Charlie | Exploring The Measurability Of Precession | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Hruska | Ondrej | The Study Of Non-Expanding Pleba?ski–Demia?ski Solutions | Czech republic | A1: Exact solutions and their interpretation |
Hu | Yiming | Science With Tianqin: Preliminary Results On Massive Black Hole Binaries | China | C5: LISA and other Space Based Detectors |
Hua | Muchuan | Towards A Better Determination Of Big G | United States of America | C10: Measurements of G |
Huarcaya | Victor | Demonstration Of Multi-Degree Of Freedom Test Mass Readout | Germany | C5: LISA and other Space Based Detectors |
Iess | Alberto | Machine-Learning Classification Of Core-Collapse Supernovae And Detector Glitches | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Ikeda | Taishi | The Physics Of Black Hole Binaries: Geodesic Properties, Quasinormal Modes And Interaction With Fundamental Fields -- Part Ii | Japan | B2: Numerical relativity |
Intini | Giuseppe | Shrewd Technique To Knock Out False-Positive Continuous-Wave Signals | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Ishihara | Hideki | Can We Observe Spherical Photon Orbits In Near-Extremal Kerr Black Holes? | Japan | B1: Relativistic astrophysics |
Isi | Maximiliano | Black Hole Spectroscopy With Overtones | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Itin | Yakov | Premetric Teleparallel Gravity As A Framework For Lorentz And Parity Symmetry Violation Models. | Israel | A3: Modified theories of gravity (theoretical aspects) |
Ivanov | Dimitar | Testing Bec Dark Matter With Gravitational Waves | Italy | B4: Cosmology: Theory and observations |
James | Alasdair | Development Of A New Photodetector For Advanced Ligo | United Kingdom | C3: Progress and Challenges in Advanced Ground Based Detectors |
Janiuk | Agnieszka | Accretion In A Dynamical Kerr Spacetime And Spinning Up Of The Black Hole In Collapsar | Poland | B1: Relativistic astrophysics |
Janiuk | Agnieszka | Short Gamma Ray Bursts, Jets, And Kilonovae | Poland | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Jaramillo | José Luis | Two Non-Normal Spectral Problems In Black Hole Spacetimes | France | A2: Mathematical relativity and classical gravitation |
Javaloyes | Miguel Ángel | Zermelo Navigation, Spacetimes And Finsler Geometry | Spain | A2: Mathematical relativity and classical gravitation |
Jimenez | Alejandro | On The Solutions Of The Einstein-Hilbert And Gauss-Bonnet Metric-Affine Lagrangians | Spain | A3: Modified theories of gravity (theoretical aspects) |
Jimenez Forteza | Xisco | Neutron Stars In Quadratic F(R) Theories Of Gravity | Italy | A3: Modified theories of gravity (theoretical aspects) |
Jimenez Forteza | Xisco | Impact Of High-Order Tidal Terms On Binary Neutron-Star Waveforms | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
John | Anslyn | Bondi Accretion In The Spherically Symmetric Johannsen-Psaltis Spacetime | South Africa | B1: Relativistic astrophysics |
Johnson-Mcdaniel | Nathan | Initial Data For Orbiting Charged Binary Black Holes With Arbitrary Spins | United Kingdom | B2: Numerical relativity |
Johnson-Mcdaniel | Nathan | Distinguishing High-Mass Binary Neutron Stars From Binary Black Holes | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Jones | Michael | The Rotation Problem | United States of America | B4: Cosmology: Theory and observations |
Cervantes | Jorge | Screenings In Modified Gravity: A Perturbative Approach | Mexico | A3: Modified theories of gravity (theoretical aspects) |
Ju | Li | Micromechanical Resonators In The Whitelight Cavity For Improved Gravitational Wave Detectors | Australia | C4: Concepts and Research towards 3G Detectors |
Jung | Sunghoon | Probing Dark Matter At Ligo And Beyond | South Korea | B5: Gravitational waves and Cosmology |
Kamiya | Yoshio | Experimental Search For New Gravity-Like Interactions In The Nanometer Range | Japan | C9: Experimental gravitation |
Karamitsos | Sotirios | Attractor Cosmology And Initial Conditions Beyond The Poles | United Kingdom | B4: Cosmology: Theory and observations |
Kashyap | Rahul | Are Kilonovae Standardizable Candles? | India | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Kastha | Shilpa | Testing The Multipole Structure Of Compact Binaries Using Gravitational Wave Observations : The Spinning Case | India | C6: Gravitational waves: Relativity and Fundamental physics |
Kavanagh | Chris | Dissipation In Extreme Mass Ratio Binaries With A Spinning Secondary | Germany | B3: Approximations, perturbation theory, and their applications |
Kawazoe | Fumiko | Qfirs – An Integrated Structured Educational Programme For Doctoral Students And Postdocs In Hannover And Braunschweig | Germany | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Kazici | Dilek | Embedding The Stationary Spacetimes Into Brans-Dicke Cosmology Via Conformal Transformations | Turkey | A1: Exact solutions and their interpretation |
Keitel | David | Searching For Long-Duration Gravitational Wave Transients From Glitching Pulsars | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Keitel | David | Education & Public Outreach Activities Of The Ligo Scientific Collaboration | United Kingdom | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Kersting | Magdalena | Bringing General Relativity To Upper Secondary Schools: Design And Evalutation Of A Digital Learning Environment | Norway | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Key | Joey Shapiro | Extreme Mass Ratio Inspiral (Emri) Search Techniques For The Lisa Mission | United States of America | C5: LISA and other Space Based Detectors |
Khadse | Akshay Vijaykumar | Quick Bbh Merger Visualizations: Interpolating Numerical Apparent Horizons | United States of America | B2: Numerical relativity |
Khalil | Mohammed | Theory-Agnostic Modeling Of Dynamical Scalarization In Binary Systems | Germany | B3: Approximations, perturbation theory, and their applications |
Khan | Sebastian | Parameter Estimation With Higher Modes And Precession | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Khavkine | Igor | Ideal Characterization Of Cosmological And Black Hole Spacetimes | Czech republic | A1: Exact solutions and their interpretation |
Khavkine | Igor | Completeness Of Local Gauge Invariant Observables On Cosmological And Black Hole Spacetimes | Czech republic | A2: Mathematical relativity and classical gravitation |
Kim | Sung-Won | Creation And Evolution Of Traversable Wormhole In Flrw Universe | South Korea | A1: Exact solutions and their interpretation |
Kim | Yunho | Gravitational Waves From Black Hole Binaries In Quadratic Gravity | Australia | A3: Modified theories of gravity (theoretical aspects) |
Kimpson | Tom | Pulsar Timing In Extreme Mass Ratio Binaries | United Kingdom | A2: Mathematical relativity and classical gravitation |
Kimura | Rampei | On Lorentz-Invariant Spin-2 Theories | Japan | A3: Modified theories of gravity (theoretical aspects) |
Kitaguchi | Masaaki | Experimental Studies Of Gravity With Slow Neutrons | Japan | C9: Experimental gravitation |
Kiuchi | Kenta | Revisiting The Lower Bound On Tidal Deformability Derived By At 2017Gfo | Germany | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Klehfoth | Mark | Local And Covariant Flow Relations For Ope Coefficients In Curved Spacetime | United States of America | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Klehfoth | Mark | Local And Covariant Flow Relations For Ope Coefficients In Curved Spacetime | United States of America | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Klein | Norbert | Can Mond Explain The Data Scattering Of "Big G" ? | United Kingdom | C9: Experimental gravitation |
Knopik | Jerzy | Gowdy Spacetimes With A Positive Cosmological Constant | Austria | A2: Mathematical relativity and classical gravitation |
Knorr | Benjamin | Asymptotic Safety - Recent Achievements And Links To Other Approaches | Netherlands | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Koga | Yasutaka | Correspondence Between Sonic Points Of Radiation Flow And Photon Surfaces | Japan | A2: Mathematical relativity and classical gravitation |
Kokkotas | Kostas | Rotational Instabilities Of Neutron Stars | Germany | B3: Approximations, perturbation theory, and their applications |
Kolekar | Sanved | Quantum Memory For Rindler Supertranslations | India | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Kontou | Eleni-Alexandra | Quantum Strong Energy Inequality And The Hawking Singularity Theorem | United Kingdom | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Korzy?ski | Miko?aj | Probing Spacetime Curvature With Geometric Optics | Poland | B4: Cosmology: Theory and observations |
Kothawala | Dawood | Small Scale Structure Of Spacetime And It'S Ramifications | India | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Kothawala | Dawood | Small Scale Structure Of Spacetime And It'S Ramifications | India | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Kovács | Áron | On The Local Well-Posedness Of Horndeski Theories | United Kingdom | A3: Modified theories of gravity (theoretical aspects) |
Kozameh | Carlos | A Quantum Theory For The Classical Graviton | Argentina | A4: Complex and conformal methods in classical and quantum gravity |
Kozameh | Carlos | Spin And Center Of Mass Comparison Between The Pn Approach And The Asymptotic Formulation | Argentina | B3: Approximations, perturbation theory, and their applications |
Krishnendu | N V | A Bayesian Method To Test The Binary Black Hole Nature Of Gravitational Wave Events By Measuring Spin-Induced Quadrupole Moments | India | C6: Gravitational waves: Relativity and Fundamental physics |
Krtouš | Pavel | Separability In Kerr-Nut-(A)Ds Spacetime | Czech republic | A2: Mathematical relativity and classical gravitation |
Kubiznak | David | Dilatonic Imprints On Exact Gravitational Wave Signatures | Canada | B5: Gravitational waves and Cosmology |
Kubiznak | David | Holographic Thermodynamics Of Accelerating Black Holes | Canada | D2: Gravitational aspects of String Theory |
Kubiznak | David | Thermodynamics Of Lorentzian Taub-Nut Spacetimes | Canada | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Lackeos | Kristen | Advances In Galactic Binary Searches With Lisa | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Laemmerzahl | Claus | Towards A Fully General Relativistic Geodesy | Germany | A2: Mathematical relativity and classical gravitation |
Laemmerzahl | Claus | Testing General Relativistic Clock Effects In The Vicinity Of The Earth | Germany | C9: Experimental gravitation |
Laghi | Danny | Testing The Area Quantisation Hypothesis From Black Hole Ringdown Signals | Italy | C6: Gravitational waves: Relativity and Fundamental physics |
Laguna | Pablo | Space-Time Approach To Locomotion In Deformable Environments | United States of America | C9: Experimental gravitation |
Landry | Philippe | A Nonparametric Approach To Gravitational-Wave Inference Of The Neutron Star Equation Of State | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Larrañaga | Eduard | Gravitational Radiation From The Inspiral Of Compact Binaries Based On A Yukawa-Type Addition To The Newtonian Potential | Colombia | A3: Modified theories of gravity (theoretical aspects) |
Larrouturou | François | Gw Generation At The 4Th Post-Newtonian Order | France | B3: Approximations, perturbation theory, and their applications |
Lavrelashvili | George | Aspects Of The Negative Mode Problem In Quantum Tunneling With Gravity | Georgia | A2: Mathematical relativity and classical gravitation |
Lavrelashvili | George | Aspects Of The Negative Mode Problem In Quantum Tunneling With Gravity | Georgia | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Lazzaro | Claudia | Discosing The Features Of Transient Gravitational Waves Indipendently From Waveform Models | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Lehner | Luis | New Vistas In The Simulation Of Compact Binary Systems | Canada | B2: Numerical relativity |
Lemos | Jose P. S. | Black Hole Volume And Enthalpy | Portugal | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Lewandowski | Jerzy | The Type D Horizons And The Petrov Type D Spacetimes | Poland | A1: Exact solutions and their interpretation |
Lewandowski | Jerzy | Near Horizon Geometry Equation, Degenerate Killing Horizons | Poland | A2: Mathematical relativity and classical gravitation |
Li | Guqiang | Hawking Radiation And Entropy Of A Black Hole In Modified Gravity From Quantum Tunneling Approach | China | B1: Relativistic astrophysics |
Li | Tjonnie | Search For Gravitational Lensing Signatures In Ligo-Virgo Binary Black Hole Events | Hong Kong | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Li | Li | Holographic Fermions In Striped Phases | China | D2: Gravitational aspects of String Theory |
Liberati | Stefano | Phenomenological Aspects Of Black Holes Beyond General Relativity | Italy | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Licht | David | Black Holes As Black Blobs On A Black Membrane | Spain | D2: Gravitational aspects of String Theory |
Lin | Feng-Li | Gedanken Experiments To Destroy A Btz Black Hole | Taiwan | A2: Mathematical relativity and classical gravitation |
Lin | Feng-Li | Compact Star Of Holographic Nuclear Matter And Gw170817 | Taiwan | C6: Gravitational waves: Relativity and Fundamental physics |
Littenberg | Tyson | Binary White Dwarfs As Laboratories For Extreme Gravity With Lisa | United States of America | C5: LISA and other Space Based Detectors |
Llorens Monteagudo | Miquel Lluís | Classification Of Gravitational-Wave Glitches Via Dictionary Learning | Spain | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Loll | Renate | Exploring Quantum Ricci Curvature In Nonperturbative Quantum Gravity | Netherlands | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
London | Lionel | Towards A New Multipolar Description Of Gravitational Waves From Binary Black Holes | United States of America | B3: Approximations, perturbation theory, and their applications |
López-Zaragoza | Juan Pedro | Magnetic Experiments On-Board Lisapathfinder | Spain | C5: LISA and other Space Based Detectors |
Louko | Jorma | Second Law Protection Theorem For Lorentz-Violating Black Holes | United Kingdom | A3: Modified theories of gravity (theoretical aspects) |
Louko | Jorma | Rindler Quench In Curved Spacetime And In The Laboratory | United Kingdom | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Loutrel | Nicholas | The Eccentric Behavior Of Inspiraling Compact Binaries | United States of America | B3: Approximations, perturbation theory, and their applications |
Loutrel | Nicholas | Probing Parity Violation With Spin-Precessing Binaries | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Lucietti | James | New Thermodynamic Identities For Five-Dimensional Black Holes | United Kingdom | A2: Mathematical relativity and classical gravitation |
Lucietti | James | Moduli Space Of Five-Dimensional Supersymmetric Black Holes | United Kingdom | D2: Gravitational aspects of String Theory |
Lukes-Gerakopoulos | Georgios | Extended Test Bodies With Spin In Curved Spacetime | Czech republic | B3: Approximations, perturbation theory, and their applications |
Lumaca | Diana | Stability Of Low Loss Substrates For Coating Research: From Edge Effect To Ageing. | Italy | C3: Progress and Challenges in Advanced Ground Based Detectors |
Lumaca | Diana | Characterization Of An E-Beam Deposited Zns Film For High-Reflectivity And Low-Loss Coating | Italy | C3: Progress and Challenges in Advanced Ground Based Detectors |
Luo | Jun | Precision Measurement Of The Gravitational Constant G With Two Independent Methods | China | C10: Measurements of G |
Luz | Paulo | Influence Of Intrinsic Spin In The Formation Of Singularities For Inhomogeneous Effective Dust Space-Times | Portugal | A1: Exact solutions and their interpretation |
Luz | Paulo | Compact Objects In Einstein-Cartan Theory: The Effects Of Intrinsic Spin In Celestial Bodies | Portugal | A3: Modified theories of gravity (theoretical aspects) |
Lynch | Morgan | Experimental Evidence For Radiation Reaction Thermalized At The Fulling-Davies-Unruh Temperature | Israel | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Ma | Yongge | Connection Dynamics Of Weyle Gravity | China | D1: Loop quantum gravity and spin foams |
Maartens | Roy | The Dipole Of The Galaxy Bispectrum | South Africa | B4: Cosmology: Theory and observations |
Macas | Ronaldas | Unmodeled Source Reconstruction With Gravitational Waves | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Macas | Ronaldas | Search For Gravitational Waves Associated With Gamma-Ray Bursts During The Second Advanced Ligo-Virgo Observing Run | United Kingdom | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Mach | Patryk | Self-Gravitating Tori Around Black Holes | Poland | B1: Relativistic astrophysics |
Maclaurin | Colin | Cosmic Cable | Australia | A1: Exact solutions and their interpretation |
Maclaurin | Colin | Proper Time Hypersurfaces And Cosmic Time | Australia | B4: Cosmology: Theory and observations |
Maeda | Hideki | Exact Black-Hole Formation With A Conformally Coupled Scalar Field | Japan | A1: Exact solutions and their interpretation |
Magalhaes | Nadja S. | General Relativity And The Rotation Curves Of Ugc 128 And Ngc 2403 | | B1: Relativistic astrophysics |
Magaña Zertuche | Lorena | Towards High Precision Ringdown Fitting | United States of America | B3: Approximations, perturbation theory, and their applications |
Maggio | Elisa | Exotic Compact Objects: Ergoregion Instability, Ringdown And Echoes | Italy | C6: Gravitational waves: Relativity and Fundamental physics |
Mahlmann | Jens | Simulating Poynting Dominated Energy Flows Around Magnetars And Black Holes | Spain | B1: Relativistic astrophysics |
Majid | Walid | Pulsars In Compact Orbits Around Sgr A* | United States of America | B1: Relativistic astrophysics |
Maka | Zsuzsa | Going Beyond Two Messengers | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Malafarina | Daniele | Observational Properties Of The Gamma Metric | Kazakhstan | A1: Exact solutions and their interpretation |
Maldonado Torralba | Francisco José | Non-Singular And Ghost-Free Infinite Derivative Theory With Torsion | South Africa | A3: Modified theories of gravity (theoretical aspects) |
Malek | Tomas | Exact Almost Universal Solutions To Higher-Order Gravities | Czech republic | A1: Exact solutions and their interpretation |
Maliborski | Maciej | Asymptotically Ads Solitons And Their Stability | Austria | A2: Mathematical relativity and classical gravitation |
Mandic | Vuk | Searching For The Stochastic Gravitational Wave Background With Advanced Ligo And Advanced Virgo | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Manjonjo | Addial | Static Conformal Models For Anisotropic Charged Fliuds | South Africa | A1: Exact solutions and their interpretation |
Mantovani | Maddalena | The Advanced Virgo Interferometer Sensing And Control For The O3 Scientific Run | Italy | C3: Progress and Challenges in Advanced Ground Based Detectors |
Marciano | Antonino | Probing Quantum Gravity With Gravitational Waves | China | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Marka | Zsuzsa | Towards Multimessenger Astronomy In The Lisa Era | United States of America | C5: LISA and other Space Based Detectors |
Marka | Szabolcs | What Else Can We Learn From Kilonova Observations? | United States of America | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Markakis | Charalampos | Kelvin'S Theorem And Hamilton-Jacobi Fluid Dynamics In Gravitational Wave Astrophysics | United Kingdom | B2: Numerical relativity |
Marolf | Donald | Negative Energies In String Theory: Limitations And Effects On Traversable Wormholes | United States of America | D2: Gravitational aspects of String Theory |
Marolf | Donald | Gravitational Entanglement: A Spectrum Of Results | United States of America | Plenary Session |
Maroto | Antonio L. | Testing Gravity With J-Pas | Spain | B4: Cosmology: Theory and observations |
Marsat | Sylvain | Binary Black Holes Parameter Estimation For Lisa | France | C5: LISA and other Space Based Detectors |
Martinez | Mario | A Convoluted Neural Network Implementation For The Search For Compact Binary Signals At Virgo | Spain | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Martínez | Vicent J. | Galaxy Correlations At The Smallest Scales | Spain | B4: Cosmology: Theory and observations |
Martin-Moruno | Prado | Graviton-Photon Oscillation Beyond Gr | Spain | B5: Gravitational waves and Cosmology |
Martynov | Denis | Prospects For Measuring Neutron Star Equation Of State Using Gravitational Waves | United Kingdom | C4: Concepts and Research towards 3G Detectors |
Maselli | Andrea | Gravitational Waves In Massive Gravity: Waveforms From Extreme-Mass-Ratio Mergers | Italy | A3: Modified theories of gravity (theoretical aspects) |
Maselli | Andrea | Probing Planckian Physics With Lisa | Italy | C5: LISA and other Space Based Detectors |
Massera | Elena | Noise Rejection Method ?Using Spherical Harmonic Decomposition | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Mastrogiovanni | Simone | Measuring The Impact Of The Gravitational Wave Intrinsic Geometry On The Hubble Constant Measure | France | B5: Gravitational waves and Cosmology |
Mastrogiovanni | Simone | Full Coherent Searches For Continuous Gravitational Waves With The Ligo Second Observing Run | France | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Matas | Andrew | Newtonian Noise Estimates Using Data From The Homestake Array | Germany | C4: Concepts and Research towards 3G Detectors |
Matos | Tonatiuh | The Quantum Character Of The Scalar Field Dark Matter | Mexico | B4: Cosmology: Theory and observations |
Mazumdar | Anupam | Towards Scale Invariant Infinite Derivative Theory Of Gravity | Netherlands | A3: Modified theories of gravity (theoretical aspects) |
Mazumdar | Anupam | Initial Conditions For Cosmic Inflation After Non-Singular Bounce | Netherlands | B4: Cosmology: Theory and observations |
Mazumdar | Anupam | Non-Local Stars As Blackhole Mimickers | Netherlands | C6: Gravitational waves: Relativity and Fundamental physics |
Mazumdar | Anupam | Quantum Entanglement Witness Of Quantum Gravity | New Zeland | C9: Experimental gravitation |
Mcisaac | Connor | Search For Sub-Threshold Lensed Images Of Gravitational Wave Observations | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Mcisaac | Connor | Improving The Black Hole Hunter Educational Game For The Advanced Detector Era | United Kingdom | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Mcnamara | Paul | Multi-Messenger Astronomy With Lisa And Athena | Netherlands | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Mei | Jianwei | The Effect Of Stationary Earth Gravity Field On The Sensitivity Of Tianqin | China | C5: LISA and other Space Based Detectors |
Melville | Scott | Positive Signs In Modified Gravity | United Kingdom | A3: Modified theories of gravity (theoretical aspects) |
Mena | Filipe | Global Existence Of Solutions To The Spherically Symmetric Einstein-Scalar Field System | Portugal | A2: Mathematical relativity and classical gravitation |
Menchón | Cintia | Rotating Black Holes In Eddington-Inspired Born-Infeld Gravity | Spain | A1: Exact solutions and their interpretation |
Mendoza | Sergio | Metric And Metric-Affine Theories Of Mond With Curvature-Matter Couplings. | Mexico | A3: Modified theories of gravity (theoretical aspects) |
Mewes | Vassilios | Sphericalnr: Numerical Relativity In Spherical Coordinates With The Einstein Toolkit | United States of America | B2: Numerical relativity |
Meylahn | Fabian | Pre-Stabilized Laser System At A Wavelength Of 1550Nm For Future Gravitational-Wave Detectors | Germany | C4: Concepts and Research towards 3G Detectors |
Michimura | Yuta | Prospects For Upgrading The Kagra Gravitational Wave Telescope | Japan | C3: Progress and Challenges in Advanced Ground Based Detectors |
Middleton | Chad | A Possible Higher-Dimensional Alternative To Scalar-Field Inflationary Theory | United States of America | B4: Cosmology: Theory and observations |
Millhouse | Meg | Estimating Neutron Star Crust-Core Lag Evolution Using A Hidden Markov Model | Australia | B1: Relativistic astrophysics |
Millhouse | Meg | Detecting And Reconstructing Unmodeled Gravitational Waves With The Bayeswave Algorithm | Australia | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Mills | Cameron | Constraining The Inclinations Of Binary Mergers From Gravitational-Wave Observations | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Minamitsuji | Masato | Spontaneous Scalarization Of Black Holes In Scalar-Tensor Theories With Derivative Couplings | Portugal | A3: Modified theories of gravity (theoretical aspects) |
Ming | Jing | Einstein@Home Search For Continuous Gravitational Waves From Vela Jr, Cassiopeia A And G347.3 | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Mishra | Bivudutta | Dynamical Aspects Of Anisotropic Cosmological Models In F(R,T) Gravity | India | A3: Modified theories of gravity (theoretical aspects) |
Mishra | Chandra Kant | Distance-Inclination Angle Measurements For Non-Optimally Oriented Binary Black Holes | India | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Mo | Jie-Xiong Mo | Effects Of Lovelock Gravity On The Joule-Thomson Expansion | China | D2: Gravitational aspects of String Theory |
Mondal | Soumen | On The Possibilities Of Shocks In Relativistic Accretion And Wind Flows | India | B1: Relativistic astrophysics |
Mondal | Soumen | Studies Of Standing And Dissipative Shocks Around Rotating Black Holes. | India | B2: Numerical relativity |
Mondal | Soumen | Probing The Accretion Disk With The Gravitational Wave. | India | C6: Gravitational waves: Relativity and Fundamental physics |
Mondin | Linda | Lisa Laser System Design, Strategy And Verification | Netherlands | C5: LISA and other Space Based Detectors |
Monjo | Robert | Theoretical And Observational Compatibility Of Inhomogeneous Hyperconical Universes By Using Conformal Projections | Spain | B4: Cosmology: Theory and observations |
Monteiro | Ricardo | Loop Amplitudes From Ambitwistor Strings | United Kingdom | A4: Complex and conformal methods in classical and quantum gravity |
Morawski | Filip | Deep Learning Classification Of The Continuous Gravitational-Wave Signal Candidates From The Time-Domain F-Statistic Search | Poland | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Morcos | Abd El Fady | Second Order Form Of The Generalized Field Theory | Egypto | A3: Modified theories of gravity (theoretical aspects) |
Morcos | Abd El Fady | Filtering Condition For Some Of Viable Field Theories | Egypto | B3: Approximations, perturbation theory, and their applications |
Moreschi | Osvaldo | Black Hole Equations Of Motion In The Null Gauge With Back Reaction Due To Radiation | Argentina | B3: Approximations, perturbation theory, and their applications |
Moreschi | Osvaldo | Missed Astrophysical Signal In The Gw150914 Event | Argentina | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Morisaki | Soichiro | Search Methods For Ultralight Scalar Field Dark Matter With Gravitational-Wave Detectors And Its Detectability | Japan | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Morris | Tim | Perturbatively Renormalizable Quantum Gravity | United Kingdom | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Most | Elias Roland | Signatures From First-Order Phase Transitions In Neutron Star Mergers | Germany | B2: Numerical relativity |
Moughal | Muhammad Zubair Ali | Generating Spiky Solution Of Einstein'S Field Equations With The Stephani Transformation | New Zeland | A1: Exact solutions and their interpretation |
Moulin | Flora | Some Aspects Of Phenomenology Of Loop Quantum Gravity For Cosmology And Black Holes | France | D1: Loop quantum gravity and spin foams |
Movahed | Seyed Mohammad Sadegh | Self-Similarity Of Pulsar Timing Residuals: A Robust Pipeline To Detect Stochastic Gravitational Waves | Iran | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Mozzon | Simone | Identification And Downranking Of Non-Stationarity In Ligo Data | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Mukhopadhyay | Banibrata | Modified Einstein Gravity To Unify Under- And Over-Luminous Type Ia Supernovae | India | A3: Modified theories of gravity (theoretical aspects) |
Mukhopadhyay | Banibrata | Power Of Magnetically Arrested Advective Accretion Flows To Explain Ulxs And Blazars | India | B1: Relativistic astrophysics |
Mukhopadhyay | Banibrata | Continuous Gravitational Waves From Magnetized White Dwarfs And Neutron Stars: Missions For Lisa,Decigo, Bbo | India | C6: Gravitational waves: Relativity and Fundamental physics |
Muratore | Martina | Instrument Characterization And Uncertainty In The Detection Of Stochastic Background Signals | Italy | C5: LISA and other Space Based Detectors |
Murk | Sebastian | Quantum Effects In Gravitational Collapse And Black Hole Evaporation | Australia | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Murk | Sebastian | Energy-Momentum Tensor And Metric Near The Schwarzschild Sphere | Australia | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Musco | Ilia | Tthe Threshold For Primordial Black Holes: Dependence On The Shape Of The Cosmological Perturbation | Spain | B2: Numerical relativity |
Musco | Ilia | The Abundance Of Primordial Black Holes Depends On The Shape Of The Inflationary Power Spectrum | Spain | B4: Cosmology: Theory and observations |
Nair | Remya | Constraints On Parameterized Post-Einsteinian Framework From Binary Pulsar Observations | United States of America | B1: Relativistic astrophysics |
Nair | Remya | Constraining Parity Violation In Gravity With Compact Binary Mergers | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Nakonieczna | Anna | Parabolic-Hyperbolic Formulation Of The Black Holes Initial Data - Numerical Studies | Poland | B2: Numerical relativity |
Nakonieczny | Lukasz | Curved Spacetime Effective Field Theory (Ceft) – Formalism And Some Applications | Poland | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Nampalliwar | Sourabh | Extreme Gravity With X-Rays: A Study Into The Nature Of Compact Objects Using X-Ray Reflection Spectroscopy | Germany | C9: Experimental gravitation |
Narayan | Ramesh | Black Hole Accretion And Relativistic Jets | United States of America | B1: Relativistic astrophysics |
Natario | Jose | Cosmic No-Hair In Spherically Symmetric Black Hole Spacetimes | Portugal | A2: Mathematical relativity and classical gravitation |
Neilsen | David | Dendro-Gr: A Scalable Framework For Computational General Relativity | United States of America | B2: Numerical relativity |
Ni | Wei-Tou | Simulation Of Lisa Time Delay Interferometry | China | C5: LISA and other Space Based Detectors |
Ni | Wei-Tou | Gw Missions Using Ranging-With-Timing And Zaiga-Ce Gw-Detection Prototype | China | C5: LISA and other Space Based Detectors |
Nikolaev | Aleksei | Embedding With Vaidya Geometry | South Africa | A1: Exact solutions and their interpretation |
Nishizawa | Atsushi | Testing Gravity At Cosmological Distance With Gravitatonal-Wave Propagation | Japan | C6: Gravitational waves: Relativity and Fundamental physics |
Nitz | Alexander | Multi-Messenger Search For Binary Neutron Star Mergers | Germany | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Noble | Scott C. | Investigating The Variability Of Accreting Binary Black Holes | United States of America | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Nofrarias | Miquel | The Data And Diagnostics Subsystem For Lisa | Spain | C5: LISA and other Space Based Detectors |
Nolan | Brien | Causality Violating Lightlike Trips In Godel'S Universe | Ireland | A1: Exact solutions and their interpretation |
Noller | Johannes | Positivity In The Sky | Switzerland | A3: Modified theories of gravity (theoretical aspects) |
Normann | Ben David | Massless, Inhomogeneous Scalar Gauge Fields | Norway | A1: Exact solutions and their interpretation |
Normann | Mikael | Evolution Equations Of Elastic Fluid In General Relativity | United Kingdom | B1: Relativistic astrophysics |
Novák | Jan | Breaking Nonlinear Graviton With Plabic Graphs | Czech republic | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Obergaulinger | Martin | Magnetically Driven Explosions And Black Hole Formation In Stellar Core Collapse | Germany | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
O'Brien | Brendan | Measurement Of Sub-Dominant Harmonic Modes For Gravitational Wave Emission From A Population Of Binary Black Holes | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Ogawa | Tatsuya | Charge Screened Boson Stars In A Spontaneous Broken U(1) Gauge Theory | Japan | B1: Relativistic astrophysics |
Okada Da Silva | Hector | Spontaneous Black Hole Scalarization | United States of America | A3: Modified theories of gravity (theoretical aspects) |
Okada Da Silva | Hector | Probing Extreme Gravity With X-Ray Burst Oscillations | United States of America | B1: Relativistic astrophysics |
Okada Da Silva | Hector | Parametrized Tests Of Gravity: From Stellar Structure To Gravitational Waves | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Olivares | Hector | Looking For Signatures Of Black Hole Mimickers With The Event Horizon Telescope | Germany | B1: Relativistic astrophysics |
Oliveira | João | On The Inexistence Of Solitons In Einstein-Maxwell-Scalar Models | Portugal | A2: Mathematical relativity and classical gravitation |
Olmedo | Javier | The Emergent Inflationary Universe In Quantum Reduced Loop Gravity: Primordial Perturbations And Their Power Spectra | United States of America | D1: Loop quantum gravity and spin foams |
Olmo | Gonzalo J. | Projective Invariance And The Schwarzschild Solution. | Spain | A1: Exact solutions and their interpretation |
Olsen | Seth | Ellis Wormhole Numerics In Maximal Isotropic Coordinates | United States of America | B2: Numerical relativity |
Oltean | Marius | The Motion Of Localized Sources In General Relativity: Gravitational Self-Force From Quasilocal Conservation Laws | Spain | B3: Approximations, perturbation theory, and their applications |
Orazi | Emanuele | A General Correspondence Between Ricci Based Theories And General Relativity | Brazil | A3: Modified theories of gravity (theoretical aspects) |
Ortiz-Baños | María | The Umami Chaplygin Model | Spain | B4: Cosmology: Theory and observations |
Oswald | Christian | The European Research Council - Funding Opportunities For Bright Minds | Germany | C8: Education and Public Outreach on Gravitational Wave Astronomy |
O'Toole | Conor | Time Domain Method For The Green Function In Schwarzschild Spacetime | Ireland | B3: Approximations, perturbation theory, and their applications |
Pagano | Giulia | Gwmodel: A Python Infrastructure For Gravitational Wave Parameter Estimation | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Palomba | Cristiano | All-Sky Search For Continuous Gravitational Waves From Boson Clouds Around Stellar Mass Black Holes | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Pang | Tsun Ho (Peter) | Model-Agnostic Test On Gravitational-Wave Polarizations | Netherlands | C6: Gravitational waves: Relativity and Fundamental physics |
Pani | Paolo | Black Holes Tend (Not) To Exist! Some Personal Reflections About Public Dissemination On Gravity | Italy | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Pani | Paolo | The Unbearable Lightness Of Spacetime: Testing The Nature Of Dark Compact Objects | Italy | Plenary Session |
Panosso Macedo | Rodrigo | Revisiting Black-Hole Perturbation Theory: The Hyperboloidal Slice Approach | United Kingdom | B3: Approximations, perturbation theory, and their applications |
Parfrey | Kyle | General-Relativistic Kinetic Plasma Simulations Of Black-Hole Magnetospheres And Jets | United States of America | B1: Relativistic astrophysics |
Park | Sohyun | Aspects Of Nonlocal Cosmology Models | Czech republic | A3: Modified theories of gravity (theoretical aspects) |
Pasquali | Michele | Post Merger Dynamics Of Binary Neutron Star Mergers | Italy | B2: Numerical relativity |
Paul | Suvankar | A Novel Strong Gravitational Lensing Feature From Wormholes | India | A1: Exact solutions and their interpretation |
Pennucci | Timothy | Status Of The North American Nanohertz Observatory For Gravitational Waves | Hungary | C1: Pulsar Timing Arrays |
Peón-Nieto | Carlos | Characterization Of N-Dimensional Kerr-De Sitter At Null Infinity And Its Limit Spacetimes | Spain | A4: Complex and conformal methods in classical and quantum gravity |
Pereira | Fabrícia | Merger Rates And The Electromagnetic Counterparts To Misaligned Supermassive Black Hole Binaries | Brazil | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Perez | Fernando | Speed As The Source Of The Gravitational Field | Spain | C10: Measurements of G |
Perrodin | Delphine | Updates From The European Pulsar Timing Array | Italy | C1: Pulsar Timing Arrays |
Perrodin | Delphine | Gravitational Wave Outreach With The International Pulsar Timing Array | Italy | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Petrov | Albert | Lorentz Symmetry Breaking In Gravity | Brazil | A3: Modified theories of gravity (theoretical aspects) |
Pfeiffer | Harald | Spectre - A New Discontinuous Galerkin Code For Solving General Relativistic Partial Differential Equations | Germany | B2: Numerical relativity |
Piccinni | Ornella Juliana | A Directed Search Of Continuous Wave Signals From The Galactic Center In Advanced Ligo'S Second Observing Run | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Pinol | Lucas | Non-Gaussianities In Multi-Field Inflation With Strongly Non-Geodesic Motion | France | B4: Cosmology: Theory and observations |
Piranomonte | Silvia | The Italyn Follow-Up Observations Of Gw Triggers In The Multi-Messenger Era | Italy | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Pizzella | Alvise | Measurement Of Thermal Noise In A Solid In Non-Equilibrium Steady States | Italy | C4: Concepts and Research towards 3G Detectors |
Pla Garcia | Silvia | Fermionic Preheating: Renormalization, Backreaction And Initial Conditions | Spain | B4: Cosmology: Theory and observations |
Pla García | Silvia | Pair Creation Induced By Electric And Gravitational Fields. | Spain | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Platania | Alessia | Effective Self-Consistent Solutions From Asymptotically Safe Gravity | Germany | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Platania | Alessia | Effective Self-Consistent Solutions From Asymptotically Safe Gravity | Germany | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Podolsky | Jiri | Spherical Black Holes In Quadratic Gravity: Bachian Generalization Of The Schwarzschild-(A)Ds Solution | Czech republic | A1: Exact solutions and their interpretation |
Pombo | Alexandre | Spontaneous Scalarisaton Of Charged Black Holes: Coupling Dependence And Dynamical Features | Portugal | A3: Modified theories of gravity (theoretical aspects) |
Pook-Kolb | Daniel | The Interior Of A Binary Black-Hole Merger | Germany | B2: Numerical relativity |
Poole | Aaron | (A)Ds In Bondi Gauge | United Kingdom | A2: Mathematical relativity and classical gravitation |
Porayko | Nataliya | Ppta Constraints On Fuzzy Dark Matter | Germany | C1: Pulsar Timing Arrays |
Pound | Adam | Second-Order Self-Force Calculations: A Status Report | United Kingdom | B3: Approximations, perturbation theory, and their applications |
Powell | Jade | The Simulation Of Gravitational Wave Emission From Core-Collapse Supernovae | Australia | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Pratten | Geraint | The Phenomx Suite Of Phenomenological Waveform Models | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Pravda | Vojtech | Universal And Almost Universal Spacetimes In Higher-Order Gravities | Czech republic | A3: Modified theories of gravity (theoretical aspects) |
Pravdova | Alena | Static, Spherically Symmetric Solutions To Quadratic Gravity | Czech republic | A3: Modified theories of gravity (theoretical aspects) |
Pullin | Jorge | Loop Quantum Gravity For Axisymmetric Spacetimes | United States of America | D1: Loop quantum gravity and spin foams |
Pundeer | Naeem Ahmad | On The Divergence Of Semiconformal Curvature And Space-Matter Tensor In General Relativity | India | A2: Mathematical relativity and classical gravitation |
Punturo | Michele | Einstein Telescope: The European 3Rd Generation Gravitational Wave Observatory | Italy | C4: Concepts and Research towards 3G Detectors |
Pürrer | Michael | Are Current Binary Black Hole Waveforms Accurate Enough For Future Detectors? | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Pushin | Dmitry | Moiré Neutron Interferometer For Precision Measurement Of G | Canada | C10: Measurements of G |
Qi | Hong | H0 Inference With Gravitational Wave Standard Sirens: A Mock Data Challenge | United Kingdom | B5: Gravitational waves and Cosmology |
Qi | Hong | Python Reduced Order Quadrature Builder Pyroq And Fast Inference On Gws From Eccentric Compact Binaries | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Rácz | István | Symmetries Of Vacuum Spacetimes With A Compact Cauchy Horizon Of Constant Non-Zero Surface Gravity | Hungary | A2: Mathematical relativity and classical gravitation |
Radia | Miren | Numerical Simulations Of Boson Stars | United Kingdom | B2: Numerical relativity |
Radu | Eugen | Nonspherical Horizons From Black Hole Scalarization | Portugal | A3: Modified theories of gravity (theoretical aspects) |
Raffai | Peter | Eccentricity Distributions Of Eccentric Binary Black Holes In Galactic Nuclei | Hungary | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Rajvanshi | Manvendra Pratap | Investigating The Dynamic Nature Of Dark Energy Beyond Linear Regime. | India | B4: Cosmology: Theory and observations |
Ramirez | Marcos | Evolution Of Thin Shells In D-Dimensional General Relativity | Argentina | A1: Exact solutions and their interpretation |
Ramirez | Marcos | Thermodynamic Stability Of Braneworld Einstein-Gauss-Bonnet Solutions And Vacuum Bubbles | Argentina | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Ramírez Romero | Cupatitzio | Quantum Frw Cosmology With An Axion-Like Field | Mexico | B4: Cosmology: Theory and observations |
Ramos Buades | Antoni | A Catalog Of Numerical Relativity And Hybrid Waveforms Of Eccentric Black-Hole Binary Systems | Spain | B2: Numerical relativity |
Raposo | Guilherme | Deformed Compact Objects In General Relativity And Beyond | Italy | A3: Modified theories of gravity (theoretical aspects) |
Raposo | Guilherme | Anisotropic Stars As Ultracompact Objects In General Relativity | Italy | C6: Gravitational waves: Relativity and Fundamental physics |
Rätzel | Dennis | Gravitational Properties Of Light | Germany | C9: Experimental gravitation |
Rätzel | Dennis | Dynamical Response Of Bose-Einstein Condensates To Oscillating Gravitational Fields | Germany | C9: Experimental gravitation |
Ray | Pratik P. | Dynamics Of Anisotropic Dark Energy Universe Embedded In One-Directional Magnetized Fluid | India | B4: Cosmology: Theory and observations |
Reall | Harvey | Strong Cosmic Censorship In De Sitter Space | United Kingdom | A2: Mathematical relativity and classical gravitation |
Reboucas | Marcelo | Limits Of The Circles-In-The-Sky Searches In The Determination Of Cosmic Topology | Brazil | B4: Cosmology: Theory and observations |
Reig | Mario | Axion Predictions From B-Physics Anomalies | Spain | B4: Cosmology: Theory and observations |
Reina | Borja | Perturbations Of Hypersurfaces Of Arbitrary Causal Character | Spain | A2: Mathematical relativity and classical gravitation |
Reitz | Marcus | Geometric Flux Formula For The Gravitational Wilson Loop | Netherlands | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Renaux-Petel | Sébastien | Geometrical Destabilization, Sidetracked Inflation And Swampland Conjectures | France | B4: Cosmology: Theory and observations |
Reula | Oscar | On Necessary And Sufficient Conditions For Strong Hyperbolicity | Argentina | A2: Mathematical relativity and classical gravitation |
Reula | Oscar | A Hyperbolic Theory Of Relativistic Conformal Dissipative Fluids | Argentina | B1: Relativistic astrophysics |
Ribeiro | Caio | An Optical Analogue Of Gravity-Induced Instabilities | Brazil | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Riemenschneider | Gunnar | Improved Analytical Representation Of The Multipolar Postmerger And Ringdown Of Coalescing, Spin-Aligned Binary Black Holes | Italy | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Ripley | Justin | Nonlinear Dynamics Of Horndeski Theories In Spherical Collapse | United States of America | A3: Modified theories of gravity (theoretical aspects) |
Rivas | Francisco | Thermo-Elastic And Thermo-Optical Effects On-Board Lisa Pathfinder | Spain | C5: LISA and other Space Based Detectors |
Robertson | Scott | Scattering Of Co-Current Surface Waves On An Analogue Black Hole | France | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Rocha | Jorge | Dynamical Spacetimes In Einstein-Maxwell-Dilaton Theory And Cosmic Censorship | Spain | A1: Exact solutions and their interpretation |
Rodrigues | Manuel | Microscope: A Test Of Equivalence Principle On The Way To Final Results | France | C9: Experimental gravitation |
Rodriguez-Meza | Mario A. | Mgpt: A Code For Perturbation Theory In Modified Gravity | Mexico | A3: Modified theories of gravity (theoretical aspects) |
Roebber | Elinore | The Geometry Of The Pta Ephemeris Error Problem | United Kingdom | C1: Pulsar Timing Arrays |
Roma Dollase | David | Enhanced Temperature Measurement Concept For Lisa | Spain | C5: LISA and other Space Based Detectors |
Roma Dollase | David | A Distributed Chip-Scale Magnetic Diagnostic Subsystem | Spain | C5: LISA and other Space Based Detectors |
Rosinska | Dorota | On The Maximum Mass Of Differentially Rotating Neutron Stars And Strange Stars | Poland | B1: Relativistic astrophysics |
Rosinska | Dorota | Binary Black Holes From Globular Cluster - The Impact Of Imbh | Poland | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Rossi | Lorenzo | Numerical Studies Of Superradiant Instability In Kerr-Ads | Italy | B2: Numerical relativity |
Rossi | Elena Maria | Lisa Science And The Lisa Science Group | Netherlands | C5: LISA and other Space Based Detectors |
Rostworowski | Andrzej | Cosmological Perturbations In The Regge-Wheeler Formalism | Poland | B3: Approximations, perturbation theory, and their applications |
Rostworowski | Andrzej | A New Perspective On Gravitational Perturbations Of Spherically Symmetric Spacetimes | Poland | B3: Approximations, perturbation theory, and their applications |
Rothleitner | Christian | The Measurement Of Big G - A Historical Overview | Germany | C10: Measurements of G |
Roulet | Javier | A Highly Spinning And Aligned Binary Black Hole Merger In The Advanced Ligo First Observing Run | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Roy | Saswati | Trajectory Of Light Ray Due To A Charged Body Via Optical Medium Approach | India | A2: Mathematical relativity and classical gravitation |
Rubiera-Garcia | Diego | Regular Black Holes In Ricci-Based Theories Of Gravity | Spain | A3: Modified theories of gravity (theoretical aspects) |
Ruipérez | Alejandro | Supersymmetric Rotating Black Holes In Gauged Supergravity And String Theory | Spain | D2: Gravitational aspects of String Theory |
Russano | Giuliana | Lisa Charge Management System: Discussion And On-Ground Testing Results | Italy | C5: LISA and other Space Based Detectors |
Rüter | Hannes | Improvements On Initial Data For Spinning Neutron Star Binaries | Germany | B2: Numerical relativity |
Rutkowski | Mieszko | Higher Order Perturbations Of The Reissner-Nordström Black Hole | Poland | B3: Approximations, perturbation theory, and their applications |
Saa | Alberto | Robinson-Trautman Solutions In (2+1) Dimensions | Brazil | A1: Exact solutions and their interpretation |
Saba | Saadia | Gravitational Decoupled Anisotropic Stars In Modified Gauss-Bonnet Gravity | Pakistan | A3: Modified theories of gravity (theoretical aspects) |
Sachdev | Surabhi | Early Warning Detection Of Gravitational Waves From Binary Neutron Star Mergers | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Sadhu | Amruta | Semiclassical Stability Of Ads-Schwarzschild Black Holes In Large D Limit | India | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Sadiq | Sobia | Anisotropic Solutions For Stellar Configurations | Pakistan | A1: Exact solutions and their interpretation |
Saffer | Alexander | The Exterior Spacetime Of Relativistic Stars In Scalar-Gauss-Bonnet Gravity | United States of America | A3: Modified theories of gravity (theoretical aspects) |
Saffer | Alexander | Angular Momentum Loss For A Binary System In Einstein-Aether Theory | United States of America | A3: Modified theories of gravity (theoretical aspects) |
Saffer | Alexander | The Gravitational Wave Stress-Energy (Pseudo)-Tensor In Modified Gravity | United States of America | A3: Modified theories of gravity (theoretical aspects) |
Sahoo | Pradyumn | Phantom Energy As A Transient Phenomenon Avoiding Cosmic Doomsday In F(R) Gravity | India | A3: Modified theories of gravity (theoretical aspects) |
Sahoo | Parbati | Wormholes In $R^2$-Gravity Within The F(R; T) Formalism | India | A3: Modified theories of gravity (theoretical aspects) |
Saifullah | Khalid | Deformed Kerr Spacetimes | Pakistan | A2: Mathematical relativity and classical gravitation |
Sakellariadou | Mairi | Anisotropies In The Stochastic Gravitational-Wave Background | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Sakellariadou | Mairi | Noncommutative Gravity With Self-Dual Variables | United Kingdom | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Saleem | Rabia | Interpretation Of Exact Inflationary Solutions Using Induced Gravity Scenario | Pakistan | A1: Exact solutions and their interpretation |
Salgado | Marcelo | Boson Clouds Around Rotating Black Holes: Obstacles In Generalizing The No-Hair Theorems | Mexico | A2: Mathematical relativity and classical gravitation |
Samajdar | Anuradha | Detectability Of R-Modes In Binary Neutron Star Inspirals | Netherlands | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Sánchez | Miguel | On The Geometry Of Globally Hyperbolic Spacetimes With Timelike Boundary | Spain | A2: Mathematical relativity and classical gravitation |
Sánchez Velázquez | Jose Manuel | Scalar Dark Matter Candidate During Postinflationary Epoch | Spain | B4: Cosmology: Theory and observations |
Sanchis-Gual | Nicolas | Non-Linear Stability Of Rotating Proca Stars | Portugal | B2: Numerical relativity |
Santiago | Jessica | Thermodynamics And Gravity | New Zeland | A2: Mathematical relativity and classical gravitation |
Santos | Jorge | Novel Supersymmetric Black Holes In Ads_% | Spain | D2: Gravitational aspects of String Theory |
Sarbach | Olivier | Well-Posed Cauchy Formulation For Einstein-Aether Theory | Mexico | A3: Modified theories of gravity (theoretical aspects) |
Sarkar | Shilpa | Two-Temperature Advective Transonic Accretion Flows Around Black Holes | India | B1: Relativistic astrophysics |
Sathyaprakash | B | Gravitational Wave Astronomy With The Next Generation Of Gw Observatories | United States of America | C4: Concepts and Research towards 3G Detectors |
Satishchandran | Gautam | Asymptotic Behavior Of Massless Fields And The Memory Effect | United States of America | A2: Mathematical relativity and classical gravitation |
Sberna | Laura | Constraints On Millicharged Dark Matter And Axion-Like Particles From Timing Of Radio Waves | Canada | B4: Cosmology: Theory and observations |
Schmidt | Patricia | Constraining F-Modes In Binary Neutron Star Inspirals With Gravitational Waves | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Schmitz | Tim | Singularity Avoidance For Collapsing Quantum Dust In The LemaˆItre-Tolman-Bondi Model | Germany | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Schuster | Sebastian | Subtleties Of Different Approaches To Electromagnetic Analogue Space-Times | New Zeland | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Schwarze | Thomas | Verifying Lisa Core Technology On Ground: A Hexagonal Optical Bench | Germany | C5: LISA and other Space Based Detectors |
Sengupta | Sandipan | Eliminating Singularities Using Non-Einsteinian Phases: The Problem Of Closed Timelike Curves And Dirac Strings In Vacuum Gravity | India | A3: Modified theories of gravity (theoretical aspects) |
Sengupta | Soumitra | Radion Stabilization In Higher Curvature Warped Spacetime | India | A3: Modified theories of gravity (theoretical aspects) |
Sennett | Noah | Constraints On Higher-Order Curvature Corrections Using Gravitational Wave Observations | Germany | C6: Gravitational waves: Relativity and Fundamental physics |
Sennett | Noah | Tests Of General Relativity With Gw170817 | Germany | C6: Gravitational waves: Relativity and Fundamental physics |
Senovilla | José M M | Equations For General Thin Shells | Spain | A2: Mathematical relativity and classical gravitation |
Serbenta | Julius | Geometric Optics In Symmetric Spacetimes Using Bilocal Operators | Poland | B4: Cosmology: Theory and observations |
Seto | Naoki | The Search For Extra-Galactic Intelligence Signals Synchronized With Binary Neutron Star Mergers | Japan | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Setyawati | Yoshinta | Enhancing Gravitational Waveform Models | Germany | B3: Approximations, perturbation theory, and their applications |
Shaikh | Rajibul | Wormholes Without Exotic Matter In Eddington-Inspired Born-Infeld Gravity | India | A1: Exact solutions and their interpretation |
Shanquan | Lan | Joule-Thomson Expansion Of Charged Gauss-Bonnet Black Holes In Ads Space | China | A2: Mathematical relativity and classical gravitation |
Shao | Lijing | Testing Anisotropic Spacetimes With An Array Of Pulsars | China | C1: Pulsar Timing Arrays |
Shao | Lijing | Testing The Strong Equivalence Principle With Binary Pulsars And Gravitational Waves | China | C6: Gravitational waves: Relativity and Fundamental physics |
Shao | Chenggang | Analyzing Lorentz Violation With Short-Range Gravitational Experiments | China | C9: Experimental gravitation |
Sharif | Muhammad | Stability Of Anisotropic Homogeneous Cylinder | Pakistan | A1: Exact solutions and their interpretation |
Sharif | Muhammad | Curvature-Matter Coupling And Anisotropic Srange Stars | Pakistan | A3: Modified theories of gravity (theoretical aspects) |
Sherif | Abbas | Some Results On Black Hole Horizons: A Covariant Approach | South Africa | A2: Mathematical relativity and classical gravitation |
Shestakova | Tatyana | Searching For A Fundamental Equation For Quantum Gravity | Russia | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Shibaguchi | Hiroyuki | Newton-V Experiment: Test Of Gravitational Inverse Square Law At A Micrometer Scale | Japan | C9: Experimental gravitation |
Shinkai | Hisaaki | Comparison Of Various Methods To Extract Ringdown Frequency From Gravitational Wave Data | Japan | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Shinkai | Hisaaki | Latest Status Of Kagra | Japan | C3: Progress and Challenges in Advanced Ground Based Detectors |
Shoemaker | Deirdre | The Impact Of Junk Radiation On Numerical Relativity Waveforms | United States of America | B2: Numerical relativity |
Shoemaker | David | Global Scenario: Gwic Activities | United States of America | C4: Concepts and Research towards 3G Detectors |
Siegel | Daniel | Gw170817: Astrophysical Results And Implications For Cosmic Nucleosynthesis | Canada | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Siemens | Xavier | Cosmological Sources Of Gravitational Waves In The Pulsar Timing Array Band | United States of America | C1: Pulsar Timing Arrays |
Silverstein | Eva | De Sitter Holography And The T-Tbar Deformation | United States of America | D2: Gravitational aspects of String Theory |
Silverstein | Eva M. | Accelerated Expansion In Cosmology: Problems And Progress | United States of America | Plenary Session |
Simpson | Christine | Using Machine Learning To Classify Burst Signals And Glitches In Lisa Data | United Kingdom | C5: LISA and other Space Based Detectors |
Singh | Vijay | Exact Solutions Of 5D Kaluza-Klein Model With Perfect Fluid Equation Of State | South Africa | A1: Exact solutions and their interpretation |
Singh | Neha | Constraining Parameters Of Coalescing Binary Systems With Einstein Telescope Alone | Poland | B5: Gravitational waves and Cosmology |
Singh | Tejinder | Proposal For A New Quantum Theory Of Gravity | India | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Skliris | Vasileios | Machine Learning To Extract Gravitational Wave Transients | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Slutsky | Jacob | Instrumental Noise Transients In Lisa | United States of America | C5: LISA and other Space Based Detectors |
Somiya | Kentaro | Development And Installation Of The Output Mode-Cleaner For Kagra | Japan | C3: Progress and Challenges in Advanced Ground Based Detectors |
Somiya | Kentaro | Study Of The Inhomogeneity In A Sapphire Substrate For Kagra | Japan | C3: Progress and Challenges in Advanced Ground Based Detectors |
Sorrentino | Fiodor | An Experiment To Demonstrate Frequency-Dependent Squeezing With Epr Entanglement For Gravitational Waves Detectors | Italy | C4: Concepts and Research towards 3G Detectors |
Sparling | George | The Complex And Projective Geometry Of Penrose Limits | United States of America | A4: Complex and conformal methods in classical and quantum gravity |
Speake | Clive | Update On The Work At Nist On The Determination Of Newton'S Constant, G, Using The Bipm 2013 Apparatus | United Kingdom | C10: Measurements of G |
Sperhake | Ulrich | Gravitational Wave Afterglow Of Stellar Collapse In Massive Scalar-Tensor Gravity | United Kingdom | B5: Gravitational waves and Cosmology |
Speziale | Simone | Surface Charges In Tetrad Variables | France | A2: Mathematical relativity and classical gravitation |
Speziale | Simone | Torsion In The Raychaudhuri Equations And In Spacetime Thermodynamics | France | A3: Modified theories of gravity (theoretical aspects) |
Spiers | Andrew | A Prospective Method For Calculating The Second-Order Gravitational Self-Force In A Kerr Background Spacetime To Model Emris. | United Kingdom | B3: Approximations, perturbation theory, and their applications |
Staelens | François | Non Linear Spherical Collapse With Relativistic Hydrodynamics In A Cosmological Background | Belgium | B2: Numerical relativity |
Stein | Leo | The Sxs Collaboration Catalog Of Binary Black Hole Simulations | United States of America | B2: Numerical relativity |
Steinbauer | Roland | Scissors-And-Paste With Lambda: The Geometric Picture | Austria | A1: Exact solutions and their interpretation |
Steinbauer | Roland | The Future Is Not Always Open | Austria | A2: Mathematical relativity and classical gravitation |
Steinke | Michael | Fiber-Based Laser Systems For 3G Detectors: State-Of-The-Art And Outlook | Germany | C4: Concepts and Research towards 3G Detectors |
Steltner | Benjamin | Identification And Removal Of Non-Gaussian Noise Transients In The Time Domain For Gravitational Wave Searches | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Stratta | Giulia | The Key-Role Of Theseus For Multi-Messenger Astrophysics | Italy | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Sturani | Riccardo | Two Body Dynamics In The Post-Newtonian Approximation Beyond Fourth Perturbative Order | Brazil | B3: Approximations, perturbation theory, and their applications |
Suárez Fernández | Isabel | Critical Phenomena And Cosmic Censorship: A Semilinear Wave Model | Portugal | A2: Mathematical relativity and classical gravitation |
Sun | Ling | Directed Searches For Gravitational Waves From Ultralight Boson Clouds Around Stellar Mass Black Holes | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Sun | Ling | Directed Searches For Gravitational Waves From Ultralight Boson Clouds Around Stellar Mass Black Holes | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Suresh | Jishnu | Pystoch: An Efficient Technique To Probe Stochastic Gravitational Wave Background Anisotropy With Ground-Based Detectors | Japan | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Surya | Sumati | A Status Report On Causal Set Theory | India | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Suzanne | Lanéry | State Space Renormalization In 1+1 Cdt | Spain | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Suzuki | Haruka | Gr Effect On Hill Stability | Japan | B1: Relativistic astrophysics |
Suzuki | Ryotaku | Merging Horizons At Large D | Spain | D2: Gravitational aspects of String Theory |
Svarc | Robert | Spherically Symmetric Geometries In Quadratic Gravity: Field Equations, Explicit Spacetimes, Physical Interpretation | Czech republic | A1: Exact solutions and their interpretation |
Sypsas | Spyros | Non-Gaussian CMB and Statistics Beyond Polyspectra | Thailand | B4: Cosmology: Theory and observations |
Szczepanczyk | Marek | Detection Of Gravitational Waves From Core-Collapse Supernovae | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Szewczyk | Pawe? | The Stability Properties Of Differentially Rotating Neutron Stars And Strange Stars | Poland | B1: Relativistic astrophysics |
Taistra | Yurii | Polarization Effects In The Kerr Space-Time | Ukrania | B1: Relativistic astrophysics |
Takeda | Hiroki | Prospects For Gravitational-Wave Polarization Test From Compact Binary Coalescences With Next-Generation Detectors | Japan | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Tamanini | Nicola | Review of Standard Sirens With LISA | Germany | B5: Gravitational waves and Cosmology |
Tanaka | Takahiro | Reanalysis Of Black Hole Echoes | Japan | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Tanner | David | Low-Loss Faraday Isolators | United States of America | C3: Progress and Challenges in Advanced Ground Based Detectors |
Taylor | Stephen | Pulsar Timing Arrays: The Next Frontier Of Gravitational Wave Astronomy | United States of America | Plenary Session |
Tenorio | Rodrigo | Noise-Robust Strategies For Continuous Gravitational Wave Searches: Improvements On The Skyhough All-Sky Search | Spain | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Teppa Pannia | Florencia Anabella | Vacuum Inflating Regions And Evolution Of Quantum Fluctuations In Inhomogeneous Backgrounds | Spain | B4: Cosmology: Theory and observations |
Terno | Daniel | A Self-Consistent Analysis Of Black Hole Horizons | Australia | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Thaller | Maximilian | Rotating Clouds Of Charged Particles In General Relativity | Sweden | A2: Mathematical relativity and classical gravitation |
Thaller | Maximilian | The Conformal Einstein Field Equations With Massless Vlasov Matter | Sweden | A4: Complex and conformal methods in classical and quantum gravity |
Thompson | Jonathan | Phenomenological Models Of Neutron Star Black Hole Binaries | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Tomaru | Takayuki | Cryogenic Mirror System In Kagra | Japan | C3: Progress and Challenges in Advanced Ground Based Detectors |
Torrentí | Francisco | Gravitational Wave Production From Preheating: Parameter Dependence | Switzerland | B5: Gravitational waves and Cosmology |
Torres-Forné | Alejandro | Universal Relations Of Core-Collapse Supernova With Gravitational Waves | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Toussaint | Vladimir | Massive Bosonic Conformal Zero-Mode In The Spatially Compactified Flrw Spacetimes And Its Detection | China | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Traykova | Dina | Beyond Horndeski Gravity: Phenomenology And Parameter Estimation | United Kingdom | A3: Modified theories of gravity (theoretical aspects) |
Trevino | Gabriel | Exploring Strong Field Deviations From General Relativity Via Gravitational Waves | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Tringali | Maria C. | Wiener Filtering Method Applied To Virgo West End Building Seismometer Array | Poland | C3: Progress and Challenges in Advanced Ground Based Detectors |
Trova | Audrey | Equilibrium Of Charged Perfect Fluid Near Black Hole | Germany | B1: Relativistic astrophysics |
Trovato | Agata | Machine Learning To Exploit Ligo/Virgo Single-Detector Data Taking Periods | France | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Trzesniewski | Tomasz | Hopf-Algebraic Deformations Of 3D Spacetime Symmetries | Poland | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Trzesniewski | Tomasz | Field Theory With Compact Phase Space | Poland | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Tsang | Ka Wa | A Morphology-Independent Search For Gravitational Wave Echoes In Gwtc-1 Release Data | Netherlands | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Tsukada | Leo | A First Search For A Stochastic Gravitational-Wave Background From Ultralight Bosons | Japan | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Tsupko | Oleg | Shadow Of Black Holes At Cosmological Distances | Russia | A2: Mathematical relativity and classical gravitation |
Tucker | Robin | A Vector-Scalar Field Model For The Dynamics Of The Early Universe | United Kingdom | B4: Cosmology: Theory and observations |
Tucker | Alexandria | Evolution Of Highly Eccentric Binary Orbits With Radiation Reaction | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Ueda | Kodai | Massive Tensor Field Perturbations On Extremal And Near-Extremal Static Black Holes | Japan | B3: Approximations, perturbation theory, and their applications |
Um | Hwa Jin | Modified Wightman Function And Unruh Effect In Nonlocal Field Theories | South Korea | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Unnikrishnan | Cs | Modified General Relativity And The Centenary Einstein Equations | India | A3: Modified theories of gravity (theoretical aspects) |
Unnikrishnan | Cs | A New Class Of Experiments On The True Relativistic Nature Of The One-Way Propagation Of Light | India | C9: Experimental gravitation |
Upton | Samuel D. | Gravitational Self-Force And The Hunt For Extreme-Mass-Ratio Inspirals | United Kingdom | B3: Approximations, perturbation theory, and their applications |
Urena-Lopez | Luis | Ultra-Light Boson Particles As Dark Matter Candidates: Boson Mass And Self-Interaction | Mexico | B4: Cosmology: Theory and observations |
Uzawa | Kunihito | Compact Objects And The Swampland | Japan | A1: Exact solutions and their interpretation |
Valiente Kroon | Juan A. | A Perturbative Approach To The Construction Of Initial Data On Compact Manifolds | United Kingdom | A2: Mathematical relativity and classical gravitation |
Valiente Kroon | Juan A. | Total Characteristics And The Conformal Einstein Field Equations | United Kingdom | A4: Complex and conformal methods in classical and quantum gravity |
Van Aelst | Karim | Rotating Black Holes In The Cubic Galileon Theory | France | A3: Modified theories of gravity (theoretical aspects) |
Vanhove | Pierre | Classical Gravity From Quantum Loop | France | B3: Approximations, perturbation theory, and their applications |
Vano-Vinuales | Alex | Reaching Infinity: Free Hyperboloidal Evolution Using Conformal Methods In Spherical Symmetry | Portugal | B2: Numerical relativity |
Varadarajan | Madhavan | An Update On Progress Towards A Satisfactory Quantum Dynamics For Lqg | India | D1: Loop quantum gravity and spin foams |
Vardaro | Marco | Frequency Independent Squeezing In Adv-Virgo | Italy | C3: Progress and Challenges in Advanced Ground Based Detectors |
Varma | Vijay | Surrogate Model Of The Waveform And Remnant Properties Of Precessing Binary Black Holes | United States of America | B2: Numerical relativity |
Veitch | John | Digging Compact Binary Populations Out Of The Noise | United Kingdom | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Venkatraman Krishnan | Vivek | Testing Theories Of Gravity With Relativistic Binary Pulsars | Germany | C1: Pulsar Timing Arrays |
Vera | Raül | Existence And Uniqueness Of Rigidly Rotating Stars To Second Order In Perturbation Theory In Gr | Spain | A2: Mathematical relativity and classical gravitation |
Verbin | Yosef | Bouncing Cosmological Solutions In Scalar - Tensor Gravity | Israel | A3: Modified theories of gravity (theoretical aspects) |
Vergani | Susanna | The Observational Prospects For Gw Em Follow-Up And Engrave | France | C7: Multi-Messenger Astronomy of Gravitational Wave Sources |
Vicente | Rodrigo | Moving Black Holes: Energy Extraction, Absorption Cross-Section And The Ring Of Fire | Portugal | B3: Approximations, perturbation theory, and their applications |
Videla | Nelson | The Viability Of Chaotic Inflation In A Generalized Galileon Scenario | Chile | B4: Cosmology: Theory and observations |
Vidotto | Francesca | Correlations In Spinfoam Cosmology | Canada | D1: Loop quantum gravity and spin foams |
Vidotto | Francesca | A New Look At Remnants As Dark Matter | Canada | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Vigano | Daniele | Neutron Stars Mergers Out Of The Blur: Modeling Turbulent Scales In Large Eddy Simulations | Spain | B1: Relativistic astrophysics |
Vijaykumar | Aditya | Probing The Large Scale Structure With Gravitational-Wave Observations Of Binary Black Holes | India | B5: Gravitational waves and Cosmology |
Villarrubia-Rojo | Hector | Observational Signatures Of Non-Comoving Cosmology | Spain | B4: Cosmology: Theory and observations |
Vines | Justin | Spinning-Black-Hole Scattering And The Test-Black-Hole Limit At Second Post-Minkowskian Order | Germany | B3: Approximations, perturbation theory, and their applications |
Vitale | Salvatore | Measuring The Hubble Constant With Neutron Star Black Hole Mergers | United States of America | B5: Gravitational waves and Cosmology |
Vivekananthaswamy | Gayathri | Intermediate-Mass Binary Black Hole Search With Advanced Ligo And Virgo | India | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Vorndamme | Christoph | Development Of The Phasemeter Core For Lisa | Germany | C5: LISA and other Space Based Detectors |
Walsh | Sinead | Rapid Parameter Estimation For Compact Binary Coalescence Events In Ligo Data | Spain | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Wang | Anzhong | Constraints On Einstein-Aether Theory After Gw170817 | United States of America | A3: Modified theories of gravity (theoretical aspects) |
Wang | Yan | Prospects For Gravitational Wave Astronomy With Next Generation Large-Scale Pulsar Timing Arrays | China | C1: Pulsar Timing Arrays |
Wang | Yan | Fundamentals Of The Orbit And Response For Tianqin | China | C5: LISA and other Space Based Detectors |
Wang | Anzhong | Gravitational Waves Of Triple System In Einstein-Aether Theory | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Wang | Anzhong | Towards The Understanding Of Quantum Cosmology From Loop Quantum Gravity | United States of America | D1: Loop quantum gravity and spin foams |
Wang | Anzhong | Qualitative Dynamics Of Quantum Cosmology From Loop Quantum Gravity | United States of America | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Warburton | Niels | Faster Emri Waveforms | Ireland | B3: Approximations, perturbation theory, and their applications |
Waseem | Arfa | Study Of Stellar Structure In Modified Theory Of Gravity | Pakistan | A3: Modified theories of gravity (theoretical aspects) |
Wass | Peter | Test Mass Charging And Discharging In Lisa | United States of America | C5: LISA and other Space Based Detectors |
Weber | William Joseph | From Lisa Pathfinder To Lisa: Preparing For Gravitational Wave Observation From Space | | Plenary Session |
Wen | Linqing | Low Latency Gw Search And Multi-Messenger Astronomy | Australia | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Westerweck | Julian | Measuring Higher Order Black Hole Ringdown Modes With Advanced Ligo | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Westphal | Tobias | Gravimetry On The Milliscale - 100mg As A Source Mass | | C10: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Whelan | John | Ligo-Virgo Searches For Gravitational Waves From Scorpius X-1 | Spain | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Whelan | John Whelan | An Analytic Approximation To The Bayesian Detection Statistic For Continuous Gravitational Waves | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Whiting | Bernard | Results Of The Recent Search For An Isotropic Stochastic Background Using Advanced Ligo Data | United States of America | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Wieland | Wolfgang | Conformal Boundary Field Theory For 3D Lqg | Canada | D1: Loop quantum gravity and spin foams |
Will | Clifford | Stars Askew In The Heavens: The Centenary Of Eddington'S Eclipse Expeditions | United States of America | Plenary Session |
Williamson | Kathryn | Training Ambassadors For High Impact Outreach | United States of America | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Williamson | Kathryn | A New Gravitational Wave Lecture-Tutorial For “Astro 101” | United States of America | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Williamson | Kathryn | The Pulsar Search Collaboratory | United States of America | C8: Education and Public Outreach on Gravitational Wave Astronomy |
Wiltshire | David | Towards Precision Tests Of The Cosmological Principle: Nhomogeneous Backreaction Versus ?cdm | New Zeland | B4: Cosmology: Theory and observations |
Witzany | Vojtech | Spin-Perturbed Orbits Near Black Holes | Czech republic | B3: Approximations, perturbation theory, and their applications |
Wondrak | Michael Florian | Quantum Corrected Black Holes From String T-Duality | Germany | D2: Gravitational aspects of String Theory |
Wright | Alex | Towards Efficient, Resistive, Multi-Fluid Simulations Of Neutron Star Mergers | United Kingdom | B2: Numerical relativity |
Wylleman | Lode | Solutions With A Geodesic, Single Weyl Pnd: From Vacuum To Aligned Einstein-Maxwell | Norway | A1: Exact solutions and their interpretation |
X | Nomaan | Studies On The Sj Vacuum In Desitter Spacetime | India | D3:Causal sets,causal dynamical triangulations,non-commutative geometry,asymptotic safety... |
Xiao-Bao | Xu | Entanglement Entropy In Jt Cft_2 | China | D2: Gravitational aspects of String Theory |
Yagi | Kent | Constraining Nuclear Matter Parameters With Gw170817 | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Yamada | Kei | More On The Tests Of Gravity Using Gravitational-Waves Data | Japan | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Yang | Huan | Axion Cloud Around Supermassive Black Holes And Its Astrophysical Implications | Canada | C6: Gravitational waves: Relativity and Fundamental physics |
Yang | Shanqing | Testing The Gravitational Inverse-Square Law With Torsion Pendulum In Hust | China | C9: Experimental gravitation |
Yau | Hou | Thin Shell With Fictitious Oscillations And Proper Time Oscillator | United States of America | A2: Mathematical relativity and classical gravitation |
Yokokura | Yuki | A Self-Consistent Description Of Time Evolution Of Black Holes Including Collapsing Matter And Hawking Radiation | Japan | D4: Quantum fields in curved space-time, semiclassical gravity, quantum gravity phenomenology... |
Yoshino | Hirotaka | Let Us Watch A Collapsing Star: How Does It Look? | Japan | B1: Relativistic astrophysics |
Yunes | Nicolas | An Entropy-Area Law For Neutron Stars Near The Black Hole Threshold | United States of America | A2: Mathematical relativity and classical gravitation |
Yunes | Nicolas | Can We Probe Planckian Corrections At The Horizon Scale With Gravitational Waves? | United States of America | A3: Modified theories of gravity (theoretical aspects) |
Yunes | Nicolas | A Gravitational Wave Model For Non-Spinning Binaries With Moderate Eccentricity | United States of America | B3: Approximations, perturbation theory, and their applications |
Yunes | Nicolas | Binary Pulsar Constraints On Massless Scalar-Tensor Theories Using Bayesian Statistics | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Yunes | Nicolas | Hidden-Sector Modifications To Gravitational Waves From Binary Inspirals | United States of America | C6: Gravitational waves: Relativity and Fundamental physics |
Zappa | Francesco | Gravitational Wave Luminosity Peak Of Compact Binary Mergers | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Zelenka | Ond?ej | Astrophysically Relevant Chaos In Extreme Mass Ratio Inspirals From Spinning Particles | Czech republic | C6: Gravitational waves: Relativity and Fundamental physics |
Zhang | Xuefeng | Examples Of Naked Singularity Formation In Einstein Vacua | China | A1: Exact solutions and their interpretation |
Zhang | Yuanhao | Setting Up Gw Searches For Sco X-1 Based On A Neutron Star Spin Evolution Study | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Zhang | Xuefeng | Orbit Selection And Implications For Tianqin | China | C5: LISA and other Space Based Detectors |
Zhang | Yuzhu | Space-Based Gravitational Wave Detector Simulation Architecture For Noise Coupling Analysis And System Optimization—Current Status And Future Development | China | C5: LISA and other Space Based Detectors |
Zhang | Yun-Long | Emergent Dark Universe And The Swampland Criteria | Japan | D2: Gravitational aspects of String Theory |
Zhao | Peng | Revisiting The Characteristic Initial Value Problem: The Conformal Vacuum Einstein Field Equations | United Kingdom | A2: Mathematical relativity and classical gravitation |
Zhou | Enping | Differentially Rotating Quark Stars In General Relativity | Germany | B1: Relativistic astrophysics |
Zhou | Mingyue | The Orbital Effects On Time Delay Interferometry For Tianqin | China | C5: LISA and other Space Based Detectors |
Zhu | Sylvia | Continuous Gravitational Waves From Axion Clouds | Germany | C2: Gravitational waves: Searches, data analysis, parameter estimation and multi-messenger astronomy |
Ziad | Muhammad | Some New Exact Solutions Of Type D Admitting Maximal G? And G? | Oman | A1: Exact solutions and their interpretation |
Zilhao | Miguel | The Physics Of Black Hole Binaries: Geodesic Properties, Quasinormal Modes And Interaction With Fundamental Fields -- Part I | Portugal | B2: Numerical relativity |
Zimmerman | Peter | Quasinormal Mode Orthogonality Ii: Application To Kerr | Germany | A2: Mathematical relativity and classical gravitation |
Zipfel | Antonia | Spin Foams And Emergent Gravity | Germany | D1: Loop quantum gravity and spin foams |