(Laser Interferometer Gravitational-Wave Observatory ; LIGO
(Observatory) ; LIGO Lab)
started 1984
LIGO’s mission is to open the field of gravitational-wave astrophysics through the direct detection of gravitational waves. 1984: Founded as Caltech/MT project. 1999: LIGO inauguration ceremony.
- Johnson, Aaron D.; Chatziioannou, Katerina; et el. (2024) Source confusion from neutron star binaries in ground-based gravitational wave detectors is minimal; Physical Review D; Vol. 109; No. 8; 84015; 10.1103/physrevd.109.084015
- Otabe, Sotatsu; Usukura, Wataru; et el. (2024) Kerr-Enhanced Optical Spring; Physical Review Letters; Vol. 132; No. 14; 143602; 10.1103/physrevlett.132.143602
- Gardner, James W.; Gefen, Tuvia; et el. (2024) Achieving the Fundamental Quantum Limit of Linear Waveform Estimation; Physical Review Letters; Vol. 132; No. 13; 130801; 10.1103/physrevlett.132.130801
- Sakon, Shio; Tsukada, Leo; et el. (2024) Template bank for compact binary mergers in the fourth observing run of Advanced LIGO, Advanced Virgo, and KAGRA; Physical Review D; Vol. 109; No. 4; 044066; 10.1103/physrevd.109.044066
- Ewing, Becca; Huxford, Rachael; et el. (2024) Performance of the low-latency GstLAL inspiral search towards LIGO, Virgo, and KAGRA’s fourth observing run; Physical Review D; Vol. 109; No. 4; 42008; 10.1103/physrevd.109.042008
- Magee, Ryan; Isi, Maximiliano; et el. (2024) Impact of selection biases on tests of general relativity with gravitational-wave inspirals; Physical Review D; Vol. 109; No. 2; 023014; 10.1103/physrevd.109.023014
- Michimura, Yuta; Wang, Haoyu; et el. (2024) Effects of mirror birefringence and its fluctuations to laser interferometric gravitational wave detectors; Physical Review D; Vol. 109; No. 2; 22009; 10.1103/physrevd.109.022009
- Goyal, Srashti; Kapadia, Shasvath J.; et el. (2024) Rapid method for preliminary identification of subthreshold strongly lensed counterparts to superthreshold gravitational-wave events; Physical Review D; Vol. 109; No. 2; 23028; 10.1103/physrevd.109.023028
- Miller, Simona J.; Isi, Maximiliano; et el. (2024) GW190521: Tracing imprints of spin-precession on the most massive black hole binary; Physical Review D; Vol. 109; No. 2; 024024; 10.1103/physrevd.109.024024
- Legred, Isaac; Sy-Garcia, Bubakar O.; et el. (2024) Assessing equation of state-independent relations for neutron stars with nonparametric models; Physical Review D; Vol. 109; No. 2; 023020; 10.1103/physrevd.109.023020
- Gefen, Tuvia; Tarafder, Rajashik; et el. (2024) Quantum Precision Limits of Displacement Noise-Free Interferometers; Physical Review Letters; Vol. 132; No. 2; 20801; 10.1103/physrevlett.132.020801
- Soni, Siddharth; Marx, Ethan; et el. (2024) QoQ: a Q-transform based test for gravitational wave transient events; Classical and Quantum Gravity; Vol. 41; No. 1; 015012; 10.1088/1361-6382/ad0922
- Molina-Ruiz, M.; Markosyan, A.; et el. (2023) Hydrogen-Induced Ultralow Optical Absorption and Mechanical Loss in Amorphous Silicon for Gravitational-Wave Detectors; Physical Review Letters; Vol. 131; No. 25; 256902; 10.1103/physrevlett.131.256902
- Pompili, Lorenzo; Buonanno, Alessandra; et el. (2023) Laying the foundation of the effective-one-body waveform models SEOBNRv5: Improved accuracy and efficiency for spinning nonprecessing binary black holes; Physical Review D; Vol. 108; No. 12; 124035; 10.1103/physrevd.108.124035
- Meyers, Patrick M.; Chatziioannou, Katerina; et el. (2023) Posterior predictive checking for gravitational-wave detection with pulsar timing arrays. II. Posterior predictive distributions and pseudo-Bayes factors; Physical Review D; Vol. 108; No. 12; 123008; 10.1103/physrevd.108.123008
- Vallisneri, Michele; Meyers, Patrick M.; et el. (2023) Posterior predictive checking for gravitational-wave detection with pulsar timing arrays. I. The optimal statistic; Physical Review D; Vol. 108; No. 12; 123007; 10.1103/physrevd.108.123007
- Payne, Ethan; Isi, Maximiliano; et el. (2023) Fortifying gravitational-wave tests of general relativity against astrophysical assumptions; Physical Review D; Vol. 108; No. 12; 124060; 10.1103/physrevd.108.124060
- Prasai, K.; Lee, K.; et el. (2023) Effects of elevated-temperature deposition on the atomic structure of amorphous Ta₂O₅ films; APL Materials; Vol. 11; No. 12; 121112; 10.1063/5.0170100
- Ezquiaga, Jose María; Hu, Wayne; et el. (2023) Identifying strongly lensed gravitational waves through their phase consistency; Physical Review D; Vol. 108; No. 10; 103520; 10.1103/physrevd.108.103520
- Golomb, Jacob and Talbot, Colm (2023) Searching for structure in the binary black hole spin distribution; Physical Review D; Vol. 108; No. 10; 103009; 10.1103/physrevd.108.103009
- Andrés-Carcasona, M.; Macquet, A.; et el. (2023) Study of scattered light in the main arms of the Einstein Telescope gravitational wave detector; Physical Review D; Vol. 108; No. 10; 102001; 10.1103/physrevd.108.102001
- Zheng, Yanyan; Kouvatsos, Nikolaos; et el. (2023) Angular Power Spectrum of Gravitational-Wave Transient Sources as a Probe of the Large-Scale Structure; Physical Review Letters; Vol. 131; No. 17; 171403; 10.1103/physrevlett.131.171403
- McGhee, Graeme I.; Spagnuolo, Viola; et el. (2023) Titania Mixed with Silica: A Low Thermal-Noise Coating Material for Gravitational-Wave Detectors; Physical Review Letters; Vol. 131; No. 17; 171401; 10.1103/physrevlett.131.171401
- Oshima, Yuka; Fujimoto, Hiroki; et el. (2023) First results of axion dark matter search with DANCE; Physical Review D; Vol. 108; No. 7; 072005; 10.1103/physrevd.108.072005
- Ganapathy, D.; Jia, W.; et el. (2023) Broadband Quantum Enhancement of the LIGO Detectors with Frequency-Dependent Squeezing; Physical Review X; Vol. 13; No. 4; 041021; 10.1103/physrevx.13.041021
- Abbott, R.; Abbott, T. D.; et el. (2023) GWTC-3: Compact Binary Coalescences Observed by LIGO and Virgo during the Second Part of the Third Observing Run; Physical Review X; Vol. 13; No. 4; 41039; 10.1103/physrevx.13.041039
- Yoo, Jooheon; Mitman, Keefe; et el. (2023) Numerical relativity surrogate model with memory effects and post-Newtonian hybridization; Physical Review D; Vol. 108; No. 6; 064027; 10.1103/physrevd.108.064027
- Makarem, Camille and Loomis, Richard A. (2023) Non-adiabatic dissociation dynamics of Ar⋯I₂ (E, v) intermolecular vibrational levels probed using velocity-map imaging; Journal of Chemical Physics; Vol. 159; No. 10; 104305; 10.1063/5.0166512
- Makarem, Camille and Loomis, Richard A. (2023) Characterization of the intermolecular vibrational levels bound within the Ar + I₂(E, v) potential energy surfaces; Chemical Physics Letters; Vol. 826; Art. No. 140642; 10.1016/j.cplett.2023.140642
- Essick, Reed; Legred, Isaac; et el. (2023) Phase transition phenomenology with nonparametric representations of the neutron star equation of state; Physical Review D; Vol. 108; No. 4; 043013; 10.1103/physrevd.108.043013
- Tsukada, Leo; Joshi, Prathamesh; et el. (2023) Improved ranking statistics of the GstLAL inspiral search for compact binary coalescences; Physical Review D; Vol. 108; No. 4; 043004; 10.1103/physrevd.108.043004
- Hanna, Chad; Kennington, James; et el. (2023) Binary tree approach to template placement for searches for gravitational waves from compact binary mergers; Physical Review D; Vol. 108; No. 4; 042003; 10.1103/physrevd.108.042003
- Whittle, Chris; McCuller, Lee; et el. (2023) Unification of Thermal and Quantum Noises in Gravitational-Wave Detectors; Physical Review Letters; Vol. 130; No. 24; Art. No. 241401; 10.1103/physrevlett.130.241401
- van Dongen, J.; Prokhorov, L.; et el. (2023) Reducing control noise in gravitational wave detectors with interferometric local damping of suspended optics; Review of Scientific Instruments; Vol. 94; No. 5; Art. No. 054501; 10.1063/5.0144865
- Lawrence, Jessica; Turbang, Kevin; et el. (2023) A stochastic search for intermittent gravitational-wave backgrounds; Physical Review D; Vol. 107; No. 10; Art. No. 103026; 10.1103/physrevd.107.103026
- Wolfe, Noah E.; Talbot, Colm; et el. (2023) Accelerating tests of general relativity with gravitational-wave signals using hybrid sampling; Physical Review D; Vol. 107; No. 10; Art. No. 104056; 10.1103/physrevd.107.104056
- Stewart, Craig A.; Costa, Claudia M.; et el. (2023) Use of accounting concepts to study research: return on investment in XSEDE, a US cyberinfrastructure service; Scientometrics; PMCID PMC9927055; 10.1007/s11192-022-04539-8
- Berger, B. K.; Areeda, J. S.; et el. (2023) Searching for the causes of anomalous Advanced LIGO noise; Applied Physics Letters; Vol. 122; No. 18; 10.1063/5.0140766
- Ma, Sizheng; Sun, Ling; et el. (2023) Using rational filters to uncover the first ringdown overtone in GW150914; Physical Review D; Vol. 107; No. 8; Art. No. 084010; 10.1103/physrevd.107.084010
- Hourihane, Sophie; Meyers, Patrick; et el. (2023) Accurate characterization of the stochastic gravitational-wave background with pulsar timing arrays by likelihood reweighting; Physical Review D; Vol. 107; No. 8; Art. No. 084045; 10.1103/physrevd.107.084045
- Ma, Sizheng; Sun, Ling; et el. (2023) Black Hole Spectroscopy by Mode Cleaning; Physical Review Letters; Vol. 130; No. 14; Art. No. 141401; 10.1103/physrevlett.130.141401
- Macquet, A.; Andrés-Carcasona, M.; et el. (2023) Simulations of light distribution on new instrumented baffles surrounding Virgo end mirrors; Classical and Quantum Gravity; Vol. 40; No. 7; Art. No. 077001; 10.1088/1361-6382/acc166
- Payne, Ethan and Thrane, Eric (2023) Model exploration in gravitational-wave astronomy with the maximum population likelihood; Physical Review Research; Vol. 5; No. 2; Art. No. 023013; 10.1103/physrevresearch.5.023013
- Ross, M. P.; Gundlach, J. H.; et el. (2023) Pseudoplane-wave gravitational calibrator for gravitational wave observatories; Physical Review D; Vol. 107; No. 6; Art. No. 062003; 10.1103/physrevd.107.062003
- Cole, G. D.; Ballmer, S. W.; et el. (2023) Substrate-transferred GaAs/AlGaAs crystalline coatings for gravitational-wave detectors; Applied Physics Letters; Vol. 122; No. 11; Art. No. 110502; 10.1063/5.0140663
- Croquette, M.; Deléglise, S.; et el. (2023) Recent advances toward mesoscopic quantum optomechanics; AVS Quantum Science; Vol. 5; No. 1; 014403; 10.1116/5.0128487
- Udall, R. P. and Davis, D. (2023) Bayesian modeling of scattered light in the LIGO interferometers; Applied Physics Letters; Vol. 122; No. 9; Art. No. 094103; 10.1063/5.0136896
- Vazsonyi, Leah and Davis, Derek (2023) Identifying glitches near gravitational-wave signals from compact binary coalescences using the Q-transform; Classical and Quantum Gravity; Vol. 40; No. 3; Art. No. 035008; 10.1088/1361-6382/acafd2
- Akutsu, T.; Ando, M.; et el. (2023) Input optics systems of the KAGRA detector during O3GK; Progress of Theoretical and Experimental Physics; Vol. 2023; No. 2; Art. No. 023F01; 10.1093/ptep/ptac166
- Chen, Sophia; Hauser, Nick; et el. (2023) Opportunities and challenges in data sharing at multi-user facilities; Nature Reviews Physics; Vol. 5; No. 2; 83-86; 10.1038/s42254-022-00546-z
- Abbott, R.; Abbott, T. D.; et el. (2023) Population of Merging Compact Binaries Inferred Using Gravitational Waves through GWTC-3; Physical Review X; Vol. 13; No. 1; Art. No. 011048; 10.1103/physrevx.13.011048
- Abbott, R.; Abe, H.; et el. (2022) Model-based Cross-correlation Search for Gravitational Waves from the Low-mass X-Ray Binary Scorpius X-1 in LIGO O3 Data; Astrophysical Journal Letters; Vol. 941; No. 2; Art. No. L30; 10.3847/2041-8213/aca1b0
- Yu, Hang; Seymour, Brian; et el. (2022) Uncertainty and Bias of Cosmology and Astrophysical Population Model from Statistical Dark Sirens; Astrophysical Journal; Vol. 941; No. 2; Art. No. 174; 10.3847/1538-4357/ac9da0
- Jones, Dana; Sun, Ling; et el. (2022) Validating continuous gravitational-wave candidates from a semicoherent search using Doppler modulation and an effective point spread function; Physical Review D; Vol. 106; No. 12; Art. No. 123011; 10.1103/physrevd.106.123011
- Alonso, Iván; Alpigiani, Cristiano; et el. (2022) Cold atoms in space: community workshop summary and proposed road-map; EPJ Quantum Technology; Vol. 9; Art. No. 30; 10.1140/epjqt/s40507-022-00147-w
- Payne, Ethan; Hourihane, Sophie; et el. (2022) Curious case of GW200129: Interplay between spin-precession inference and data-quality issues; Physical Review D; Vol. 106; No. 10; Art. No. 104017; 10.1103/physrevd.106.104017
- Davis, Derek; Trevor, Max; et el. (2022) Incorporating information from LIGO data quality streams into the PyCBC search for gravitational waves; Physical Review D; Vol. 106; No. 10; Art. No. 102006; 10.1103/physrevd.106.102006
- Aritomi, Naoki; Zhao, Yuhang; et el. (2022) Demonstration of length control for a filter cavity with coherent control sidebands; Physical Review D; Vol. 106; No. 10; Art. No. 102003; 10.1103/physrevd.106.102003
- Plunkett, Cailin; Hourihane, Sophie; et el. (2022) Concurrent estimation of noise and compact-binary signal parameters in gravitational-wave data; Physical Review D; Vol. 106; No. 10; Art. No. 104021; 10.1103/physrevd.106.104021
- Abbott, R.; Abe, H.; et el. (2022) All-sky search for continuous gravitational waves from isolated neutron stars using Advanced LIGO and Advanced Virgo O3 data; Physical Review D; Vol. 106; No. 10; Art. No. 102008; 10.1103/physrevd.106.102008
- Otabe, Sotatsu; Komori, Kentaro; et el. (2022) Photothermal effect in macroscopic optomechanical systems with an intracavity nonlinear optical crystal; Optics Express; Vol. 30; No. 23; 42579-42593; 10.1364/oe.474621
- Schatz, H.; Becerril Reyes, A. D.; et el. (2022) Horizons: nuclear astrophysics in the 2020s and beyond; Journal of Physics G: Nuclear and Particle Physics; Vol. 49; No. 11; Art. No. 110502; 10.1088/1361-6471/ac8890
- Bartolo, Nicola; Bertacca, Daniele; et el. (2022) Probing anisotropies of the Stochastic Gravitational Wave Background with LISA; Journal of Cosmology and Astroparticle Physics; Vol. 2022; No. 11; Art. No. 009; 10.1088/1475-7516/2022/11/009
- Hannam, Mark; Hoy, Charlie; et el. (2022) General-relativistic precession in a black-hole binary; Nature; Vol. 610; No. 7933; 652-655; 10.1038/s41586-022-05212-z
- Hanna, Chad; Joshi, Prathamesh; et el. (2022) Metric assisted stochastic sampling search for gravitational waves from binary black hole mergers; Physical Review D; Vol. 106; No. 8; Art. No. 084033; 10.1103/physrevd.106.084033
- Callister, Thomas A.; Miller, Simona J.; et el. (2022) No Evidence that the Majority of Black Holes in Binaries Have Zero Spin; Astrophysical Journal Letters; Vol. 937; No. 1; Art. No. L13; 10.3847/2041-8213/ac847e
- Yu, Hang; Martynov, Denis; et el. (2022) Exposing gravitational waves below the quantum sensing limit; Physical Review D; Vol. 106; No. 6; Art. No. 063017; 10.1103/physrevd.106.063017
- Abbott, R.; Abe, H.; et el. (2022) Search for gravitational waves from Scorpius X-1 with a hidden Markov model in O3 LIGO data; Physical Review D; Vol. 106; No. 6; Art. No. 062002; 10.1103/physrevd.106.062002
- Smetana, Jiri; Walters, Rebecca; et el. (2022) Compact Michelson Interferometers with Subpicometer Sensitivity; Physical Review Applied; Vol. 18; No. 3; Art. No. 034040; 10.1103/physrevapplied.18.034040
- Vajente, Gabriele (2022) Present and Future of Gravitational Wave Astronomy; Galaxies; Vol. 10; No. 4; Art. No. 91; 10.3390/galaxies10040091
- Hourihane, Sophie; Chatziioannou, Katerina; et el. (2022) Accurate modeling and mitigation of overlapping signals and glitches in gravitational-wave data; Physical Review D; Vol. 106; No. 4; Art. No. 042006; 10.1103/physrevd.106.042006
- Abbott, R.; Abe, H.; et el. (2022) Searches for Gravitational Waves from Known Pulsars at Two Harmonics in the Second and Third LIGO-Virgo Observing Runs; Astrophysical Journal; Vol. 935; No. 1; Art. No. 1; 10.3847/1538-4357/ac6acf
- Abbott, R.; Abe, H.; et el. (2022) Search for continuous gravitational wave emission from the Milky Way center in O3 LIGO-Virgo data; Physical Review D; Vol. 106; No. 4; Art. No. 042003; 10.1103/physrevd.106.042003
- Abbott, R.; Abbott, T. D.; et el. (2022) Search for Subsolar-Mass Binaries in the First Half of Advanced LIGO’s and Advanced Virgo’s Third Observing Run; Physical Review Letters; Vol. 129; No. 6; Art. No. 061104; 10.1103/physrevlett.129.061104
- Magee, Ryan and Borhanian, Ssohrab (2022) Observing Scenarios for the Next Decade of Early Warning Detection of Binary Neutron Stars; Astrophysical Journal; Vol. 935; No. 2; 139; 10.3847/1538-4357/ac7f33
- Romero-Rodríguez, Alba; Martínez, Mario; et el. (2022) Determination of the Stray Light-Induced Noise from the Baffle in the Cryogenic Trapping Area of Advanced Virgo in O5; Galaxies; Vol. 10; No. 4; Art. No. 86; 10.3390/galaxies10040086
- Iwaguchi, Shoki; Nishizawa, Atsushi; et el. (2022) Displacement-noise-free neutron interferometer for gravitational wave detection using a single Mach-Zehnder configuration; Physics Letters A; Vol. 441; Art. No. 128150; 10.1016/j.physleta.2022.128150
- Isi, Maximiliano; Farr, Will M.; et el. (2022) Comparing Bayes factors and hierarchical inference for testing general relativity with gravitational waves; Physical Review D; Vol. 106; No. 2; Art. No. 024048; 10.1103/physrevd.106.024048
- Abbott, R.; Abbott, T. D.; et el. (2022) Narrowband Searches for Continuous and Long-duration Transient Gravitational Waves from Known Pulsars in the LIGO-Virgo Third Observing Run; Astrophysical Journal; Vol. 932; No. 2; Art. No. 133; 10.3847/1538-4357/ac6ad0
- Nishizawa, Atsushi; Iwaguchi, Shoki; et el. (2022) Neutron displacement noise-free interferometer for gravitational-wave detection; Physical Review D; Vol. 105; No. 12; Art. No. 124017; 10.1103/physrevd.105.124017
- Abbott, R.; Abbott, T. D.; et el. (2022) All-sky, all-frequency directional search for persistent gravitational waves from Advanced LIGO’s and Advanced Virgo’s first three observing runs; Physical Review D; Vol. 105; No. 12; Art. No. 122001; 10.1103/physrevd.105.122001
- Ballester, O.; Blanch, O.; et el. (2022) Measurement of the stray light in the Advanced Virgo input mode cleaner cavity using an instrumented baffle; Classical and Quantum Gravity; Vol. 39; No. 11; Art. No. 115011; 10.1088/1361-6382/ac6a9d
- Payne, Ethan; Sun, Ling; et el. (2022) The Imprint of Superradiance on Hierarchical Black Hole Mergers; Astrophysical Journal; Vol. 931; No. 2; Art. No. 79; 10.3847/1538-4357/ac66df
- Abbott, R.; Abe, H.; et el. (2022) First joint observation by the underground gravitational-wave detector KAGRA with GEO 600; Progress of Theoretical and Experimental Physics; Vol. 2022; No. 6; Art. No. 063F01; 10.1093/ptep/ptac073
- Abe, Homare; Akutsu, Tomotada; et el. (2022) The Current Status and Future Prospects of KAGRA, the Large-Scale Cryogenic Gravitational Wave Telescope Built in the Kamioka Underground; Galaxies; Vol. 10; No. 3; Art. No. 63; 10.3390/galaxies10030063
- Srivastava, Varun; Davis, Derek; et el. (2022) Science-driven Tunable Design of Cosmic Explorer Detectors; Astrophysical Journal; Vol. 931; No. 1; Art. No. 22; 10.3847/1538-4357/ac5f04
- Abbott, R.; Abe, H.; et el. (2022) All-sky search for gravitational wave emission from scalar boson clouds around spinning black holes in LIGO O3 data; Physical Review D; Vol. 105; No. 10; Art. No. 102001; 10.1103/PhysRevD.105.102001
- Ma, Sizheng; Wang, Qingwen; et el. (2022) Gravitational-wave echoes from numerical-relativity waveforms via spacetime construction near merging compact objects; Physical Review D; Vol. 105; No. 10; Art. No. 104007; 10.1103/physrevd.105.104007
- Macas, Ronaldas; Pooley, Joshua; et el. (2022) Impact of noise transients on low latency gravitational-wave event localization; Physical Review D; Vol. 105; No. 10; Art. No. 103021; 10.1103/physrevd.105.103021
- Fazio, Mariana A.; Vajente, Gabriele; et el. (2022) Comprehensive study of amorphous metal oxide and Ta₂O₅-based mixed oxide coatings for gravitational-wave detectors; Physical Review D; Vol. 105; No. 10; Art. No. 102008; 10.1103/physrevd.105.102008
- Richardson, Jonathan W.; Pandey, Swadha; et el. (2022) Optimizing gravitational-wave detector design for squeezed light; Physical Review D; Vol. 105; No. 10; Art. No. 102002; 10.1103/physrevd.105.102002
- Vajente, Gabriele (2022) Data mining and machine learning improve gravitational-wave detector sensitivity; Physical Review D; Vol. 105; No. 10; Art. No. 102005; 10.1103/physrevd.105.102005
- Wijngaarden, Marcella; Chatziioannou, Katerina; et el. (2022) Probing neutron stars with the full premerger and postmerger gravitational wave signal from binary coalescences; Physical Review D; Vol. 105; No. 10; Art. No. 104019; 10.1103/PhysRevD.105.104019
- Drori, Yehonathan; Eichholz, Johannes; et el. (2022) Scattering loss in precision metrology due to mirror roughness; Journal of the Optical Society of America A; Vol. 39; No. 5; 969-978; 10.1364/JOSAA.455127
- Chatziioannou, Katerina (2022) Uncertainty limits on neutron star radius measurements with gravitational waves; Physical Review D; Vol. 105; No. 8; Art. No. 084021; 10.1103/PhysRevD.105.084021
- Abbott, R.; Abbott, T. D.; et el. (2022) Search of the early O3 LIGO data for continuous gravitational waves from the Cassiopeia A and Vela Jr. supernova remnants; Physical Review D; Vol. 105; No. 8; Art. No. 082005; 10.1103/physrevd.105.082005
- Zhao, Yuhang; Capocasa, Eleonora; et el. (2022) Improving the stability of frequency-dependent squeezing with bichromatic control of filter cavity length, alignment, and incident beam pointing; Physical Review D; Vol. 105; No. 8; Art. No. 082003; 10.1103/physrevd.105.082003
- Cooper, S. J.; Collins, C. J.; et el. (2022) Interferometric sensing of a commercial geophone; Classical and Quantum Gravity; Vol. 39; No. 7; Art. No. 075023; 10.1088/1361-6382/ac595c
- Abbott, R.; Abbott, T. D.; et el. (2022) Search for Gravitational Waves Associated with Gamma-Ray Bursts Detected by Fermi and Swift during the LIGO–Virgo Run O3b; Astrophysical Journal; Vol. 928; No. 2; Art. No. 186; 10.3847/1538-4357/ac532b
- Daw, E. J.; Hollows, I. J.; et el. (2022) IWAVE—An adaptive filter approach to phase lock and the dynamic characterization of pseudo-harmonic waves; Review of Scientific Instruments; Vol. 93; No. 4; Art. No. 044502; 10.1063/5.0070394
- Dwyer, Sheila E.; Mansell, Georgia L.; et el. (2022) Squeezing in Gravitational Wave Detectors; Galaxies; Vol. 10; No. 2; Art. No. 46; 10.3390/galaxies10020046
- Srivastava, Varun; Mansell, Georgia; et el. (2022) Piezo-deformable mirrors for active mode matching in advanced LIGO; Optics Express; Vol. 30; No. 7; 10491-10501; 10.1364/oe.445088
- Yu, Hang and Adhikari, Rana X. (2022) Nonlinear Noise Cleaning in Gravitational-Wave Detectors With Convolutional Neural Networks; Frontiers in Artificial Intelligence; Vol. 5; Art. No. 811563; PMCID PMC8969740; 10.3389/frai.2022.811563
- Abbott, R.; Abbott, T. D.; et el. (2022) Constraints on dark photon dark matter using data from LIGO’s and Virgo’s third observing run; Physical Review D; Vol. 105; No. 6; Art. No. 063030; 10.1103/physrevd.105.063030
- Abbott, Thomas C.; Buffaz, Eitan; et el. (2022) GWSkyNet-Multi: A Machine-learning Multiclass Classifier for LIGO–Virgo Public Alerts; Astrophysical Journal; Vol. 927; No. 2; Art. No. 232; 10.3847/1538-4357/ac5019
- Talbot, Colm and Thrane, Eric (2022) Flexible and Accurate Evaluation of Gravitational-wave Malmquist Bias with Machine Learning; Astrophysical Journal; Vol. 927; No. 1; Art. No. 76; 10.3847/1538-4357/ac4bc0
- Abbott, R.; Abbott, T. D.; et el. (2022) Search for intermediate-mass black hole binaries in the third observing run of Advanced LIGO and Advanced Virgo; Astronomy and Astrophysics; Vol. 659; Art. No. A84; 10.1051/0004-6361/202141452
- Ebisuzaki, Toshikazu; Tajima, Toshiki; et el. (2022) Wakefield Acceleration in the Universe; International Journal of Modern Physics D; Vol. 32; No. 4; Art. No. 2330001; 10.1142/s021827182330001x
- Vajente, Gabriele (2022) Analytical expressions for the clipping of Laguerre– and Hermite–Gauss modes by circular apertures; Journal of the Optical Society of America A; Vol. 39; No. 3; 352-357; 10.1364/josaa.448808
- Frostig, Danielle; Biscoveanu, Sylvia; et el. (2022) An Infrared Search for Kilonovae with the WINTER Telescope. I. Binary Neutron Star Mergers; Astrophysical Journal; Vol. 926; No. 2; Art. No. 152; 10.3847/1538-4357/ac4508
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