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Related papers: The Advanced Virgo Photon Calibrators

200 papers

We anticipate the first direct detections of gravitational waves (GWs) with Advanced LIGO and Virgo later this decade. Though this groundbreaking technical achievement will be its own reward, a still greater prize could be observations of…

As LIGO and Virgo are upgraded, improving calibration systems to keep pace with the anticipated signal-to-noise enhancements will be challenging. We explore here a calibration method that uses astronomical signals, namely inspiral signals…

General Relativity and Quantum Cosmology · Physics 2020-09-23 B. F. Schutz , B. S. Sathyaprakash

Glitches frequently contaminate data in gravitational-wave detectors, complicating the observation and analysis of astrophysical signals. This work introduces VIGILant, an automatic pipeline for classification and visualization of glitches…

General Relativity and Quantum Cosmology · Physics 2026-04-16 Tiago Fernandes , Francesco Di Renzo , Antonio Onofre , Alejandro Torres-Forné , José A. Font

We describe the angular sensing and control of the 4 km detectors of the Laser Interferometer Gravitational-wave Observatory (LIGO). The culmination of first generation LIGO detectors, Enhanced LIGO operated between 2009 and 2010 with about…

We explore a method to assess the relative scale of the strain measured in the different detectors of the gravitational-wave network, using binary black hole (BBH) events detected during the third observing run (O3). The number of such…

General Relativity and Quantum Cosmology · Physics 2022-08-29 C. Alléné , N. Andres , M. Assiduo , F. Aubin , D. Buskulic , R. Chierici , D. Estevez , F. Faedi , G. M. Guidi , V. Juste , F. Marion , B. Mours , E. Nitoglia , V. Sordini , A. Syx

We consider the question of cross-correlation measurements using Virgo and the LSC Interferometers (LIGO Livingston, LIGO Hanford, and GEO600) to search for a stochastic gravitational-wave background. We find that inclusion of Virgo into…

General Relativity and Quantum Cosmology · Physics 2008-11-26 Giancarlo Cella , Carlo Nicola Colacino , Elena Cuoco , Angela Di Virgilio , Tania Regimbau , Emma L Robinson , John T Whelan

The LIGO-Virgo-KAGRA network in the upcoming A+ era with upgrades of both Advanced LIGO and Advanced Virgo will enable more frequent and precise observations of binary neutron star (BNS) mergers, improving constraints on the neutron star…

General Relativity and Quantum Cosmology · Physics 2025-01-22 Alexis Boudon , Hong Qi , Jean-François Coupechoux , Philippe Landry , Viola Sordini

A novel instrumented baffle surrounding the suspended end mirror in the input mode cleaner cavity of the Virgo interferometer was installed in spring 2021. Since then, the device has been regularly operated in the experiment and the…

The probability that interferometric detectors such as LIGO and VIRGO will successfully detect inspiraling compact binaries depends in part on our knowledge of the expected gravitational wave forms. The best approximations to the true wave…

General Relativity and Quantum Cosmology · Physics 2007-05-23 Serge Droz , Eric Poisson

On May 24th, 2023, the Advanced Laser Interferometer Gravitational-Wave Observatory (LIGO), joined by the Advanced Virgo and KAGRA detectors, began the fourth observing run for a two-year-long dedicated search for gravitational waves. The…

General Relativity and Quantum Cosmology · Physics 2025-03-05 E. Capote , W. Jia , N. Aritomi , M. Nakano , V. Xu , R. Abbott , I. Abouelfettouh , R. X. Adhikari , A. Ananyeva , S. Appert , S. K. Apple , K. Arai , S. M. Aston , M. Ball , S. W. Ballmer , D. Barker , L. Barsotti , B. K. Berger , J. Betzwieser , D. Bhattacharjee , G. Billingsley , S. Biscans , C. D. Blair , N. Bode , E. Bonilla , V. Bossilkov , A. Branch , A. F. Brooks , D. D. Brown , J. Bryant , C. Cahillane , H. Cao , F. Clara , J. Collins , C. M. Compton , R. Cottingham , D. C. Coyne , R. Crouch , J. Csizmazia , A. Cumming , L. P. Dartez , D. Davis , N. Demos , E. Dohmen , J. C. Driggers , S. E. Dwyer , A. Effler , A. Ejlli , T. Etzel , M. Evans , J. Feicht , R. Frey , W. Frischhertz , P. Fritschel , V. V. Frolov , M. Fuentes-Garcia , P. Fulda , M. Fyffe , D. Ganapathy , B. Gateley , T. Gayer , J. A. Giaime , K. D. Giardina , J. Glanzer , E. Goetz , R. Goetz , A. W. Goodwin-Jones , S. Gras , C. Gray , D. Griffith , H. Grote , T. Guidry , J. Gurs , E. D. Hall , J. Hanks , J. Hanson , M. C. Heintze , A. F. Helmling-Cornell , N. A. Holland , D. Hoyland , H. Y. Huang , Y. Inoue , A. L. James , A. Jamies , A. Jennings , D. H. Jones , H. B. Kabagoz , S. Karat , S. Karki , M. Kasprzack , K. Kawabe , N. Kijbunchoo , P. J. King , J. S. Kissel , K. Komori , A. Kontos , Rahul Kumar , K. Kuns , M. Landry , B. Lantz , M. Laxen , K. Lee , M. Lesovsky , F. Llamas Villarreal , M. Lormand , H. A. Loughlin , R. Macas , M. MacInnis , C. N. Makarem , B. Mannix , G. L. Mansell , R. M. Martin , K. Mason , F. Matichard , N. Mavalvala , N. Maxwell , G. McCarrol , R. McCarthy , D. E. McClelland , S. McCormick , T. McRae , F. Mera , E. L. Merilh , F. Meylahn , R. Mittleman , D. Moraru , G. Moreno , A. Mullavey , T. J. N. Nelson , A. Neunzert , J. Notte , J. Oberling , T. OHanlon , C. Osthelder , D. J. Ottaway , H. Overmier , W. Parker , O. Patane , A. Pele , H. Pham , M. Pirello , J. Pullin , V. Quetschke , K. E. Ramirez , K. Ransom , J. Reyes , J. W. Richardson , M. Robinson , J. G. Rollins , C. L. Romel , J. H. Romie , M. P. Ross , K. Ryan , T. Sadecki , A. Sanchez , E. J. Sanchez , L. E. Sanchez , R. L. Savage , D. Schaetzl , M. G. Schiworski , R. Schnabel , R. M. S. Schofield , E. Schwartz , D. Sellers , T. Shaffer , R. W. Short , D. Sigg , B. J. J. Slagmolen , C. Soike , S. Soni , V. Srivastava , L. Sun , D. B. Tanner , M. Thomas , P. Thomas , K. A. Thorne , M. R. Todd , C. I. Torrie , G. Traylor , A. S. Ubhi , G. Vajente , J. Vanosky , A. Vecchio , P. J. Veitch , A. M. Vibhute , E. R. G. von Reis , J. Warner , B. Weaver , R. Weiss , C. Whittle , B. Willke , C. C. Wipf , J. L. Wright , H. Yamamoto , L. Zhang , M. E. Zucker

We report on the status of the Laser Interferometric Gravitational-Wave Observatory (LIGO) and the plans and progress towards Enhanced and Advanced LIGO. The initial LIGO detectors have finished a two year long data run during which a full…

General Relativity and Quantum Cosmology · Physics 2019-08-13 Joshua R Smith

In this article, we present results on the simulated performance of an instrumented baffle installed at the entrance of the vacuum towers hosting the end mirrors of Virgo's main Fabry-P\'erot cavities. The installation of instrumented…

Instrumentation and Detectors · Physics 2025-01-23 M. Andrés-Carcasona , M. Martínez , Ll. M. Mir , J. Mundet , H. Yamamoto

The suspended end mirror of the input mode cleaner cavity in the Advanced Virgo Plus interferometer was equipped with an instrumented baffle in spring 2021, serving as a demonstrator of the technology in preparation for the installation of…

Instrumentation and Detectors · Physics 2026-04-01 Dounia Nanadoumgar-Lacroze , Monica Seglar-Arroyo , Mario Martinez , Lluïsa-Maria Mir , Otger Ballester

Starting from May 2023, the LIGO Scientific, Virgo and KAGRA Collaboration is planning to conduct the fourth observing run with improved detector sensitivities and an expanded detector network including KAGRA. Accordingly, it is vital to…

The worldwide advanced gravitational-wave (GW) detector network has so far primarily consisted of the two Advanced LIGO observatories at Hanford and Livingston, with Advanced Virgo joining the 2016-7 O2 observation run at a relatively late…

High Energy Astrophysical Phenomena · Physics 2020-07-13 Gareth S. Davies , Thomas Dent , Márton Tápai , Ian Harry , Connor McIsaac , Alexander H. Nitz

Low-latency analyses of gravitational-wave (GW) data from LIGO, Virgo, and KAGRA enable rapid detection of compact binary coalescences (CBC) and prompt sky localization, essential for electromagnetic follow-up in multi-messenger astronomy.…

High Energy Astrophysical Phenomena · Physics 2025-10-28 Amazigh Ouzriat , Viola Sordini , Francesco Di Renzo

The response of the Advanced LIGO interferometers is known to vary with time [arXiv:1608.05134]. Accurate calibration of the interferometers must therefore track and compensate for temporal variations in calibration model parameters. These…

Instrumentation and Methods for Astrophysics · Physics 2023-01-11 Madeline Wade , Aaron D. Viets , Theresa Chmiel , Madeline Stover , Leslie Wade

The KAGRA Collaboration has investigated a ten-year upgrade strategy for the KAGRA gravitational wave detector, considering a total of 14 upgrade options that vary in mirror mass, quantum noise reduction techniques, and the quality of…

General Relativity and Quantum Cosmology · Physics 2025-08-06 KAGRA Collaboration , T. Akutsu , M. Ando , M. Aoumi , A. Araya , Y. Aso , L. Baiotti , R. Bajpai , K. Cannon , A. H. -Y. Chen , D. Chen , H. Chen , A. Chiba , C. Chou , M. Eisenmann , K. Endo , T. Fujimori , S. Garg , D. Haba , S. Haino , R. Harada , H. Hayakawa , K. Hayama , S. Fujii , Y. Himemoto , N. Hirata , C. Hirose , H. -F. Hsieh , H. -Y. Hsieh , C. Hsiung , S. -H. Hsu , K. Ide , R. Iden , S. Ikeda , H. Imafuku , R. Ishikawa , Y. Itoh , M. Iwaya , H-B. Jin , K. Jung , T. Kajita , I. Kaku , M. Kamiizumi , N. Kanda , H. Kato , T. Kato , R. Kawamoto , S. Kim , C. Kim , K. Kobayashi , K. Kohri , K. Kokeyama , K. Komori , A. K. H. Kong , T. Koyama , J. Kume , S. Kuroyanagi , S. Kuwahara , K. Kwak , S. Kwon , H. W. Lee , R. Lee , S. Lee , K. L. Li , L. C. -C. Lin , E. -T. -Lin , Y. -C. Lin , G. C. Liu , K. Maeda , M. Meyer-Conde , Y. Michimura , K. Mitsuhashi , O. Miyakawa , S. Miyoki , S. Morisaki , Y. Moriwaki , M. Murakoshi , K. Nakagaki , K. Nakamura , H. Nakano , T. Narikawa , L. Naticchioni , L. Nguyen Quynh , Y. Nishino , A. Nishizawa , K. Obayashi , M. Ohashi , M. Onishi , K. Oohara , S. Oshino , R. Ozaki , M. A. Page , K. -C. Pan , B. -J. Park , J. Park , F. E. Pena Arellano , N. Ruhama , S. Saha , K. Sakai , Y. Sakai , R. Sato , S. Sato , Y. Sato , Y. Sato , T. Sawada , Y. Sekiguchi , N. Sembo , L. Shao , Z. -H. Shi , R. Shimomura , H. Shinkai , S. Singh , K. Somiya , I. Song , H. Sotani , Y. Sudo , K. Suzuki , M. Suzuki , H. Tagoshi , K. Takada , H. Takahashi , R. Takahashi , A. Takamori , S. Takano , H. Takeda , K. Takeshita , M. Tamaki , K. Tanaka , S. J. Tanaka , A. Taruya , T. Tomaru , T. Tomura , S. Tsuchida , N. Uchikata , T. Uchiyama , T. Uehara , K. Ueno , T. Ushiba , H. Wang , T. Washimi , C. Wu , H. Wu , K. Yamamoto , T. Yamamoto , T. S. Yamamoto , R. Yamazaki , Y. Yang , S. -W. Yeh , J. Yokoyama , T. Yokozawa , H. Yuzurihara , Z. -C. Zhao , X. Zhu , Z. -H. Zhu

We present the probability distribution of the systematic errors in the most accurate, high-latency version of the reconstructed dimensionless strain $h$, at the Hanford and Livingston LIGO detectors, used for gravitational-wave…