Search Results - "Compton, C. M."

Approaching the motional ground state of a 10-kg object by Whittle, Chris, Hall, Evan D., Dwyer, Sheila, Mavalvala, Nergis, Sudhir, Vivishek, Abbott, R., Ananyeva, A., Austin, C., Barsotti, L., Betzwieser, J., Blair, C. D., Brooks, A. F., Brown, D. D., Buikema, A., Cahillane, C., Driggers, J. C., Effler, A., Fernandez-Galiana, A., Fritschel, P., Frolov, V. V., Hardwick, T., Kasprzack, M., Kawabe, K., Kijbunchoo, N., Kissel, J. S., Mansell, G. L., Matichard, F., McCuller, L., McRae, T., Mullavey, A., Pele, A., Schofield, R. M. S., Sigg, D., Tse, M., Vajente, G., Vander-Hyde, D. C., Yu, Hang, Yu, Haocun, Adams, C., Adhikari, R. X., Appert, S., Arai, K., Areeda, J. S., Asali, Y., Aston, S. M., Baer, A. M., Ball, M., Ballmer, S. W., Banagiri, S., Barker, D., Bartlett, J., Berger, B. K., Bhattacharjee, D., Billingsley, G., Biscans, S., Blair, R. M., Bode, N., Booker, P., Bork, R., Bramley, A., Cannon, K. C., Chen, X., Ciobanu, A. A., Clara, F., Compton, C. M., Cooper, S. J., Corley, K. R., Countryman, S. T., Covas, P. B., Coyne, D. C., Datrier, L. E. H., Davis, D., Di Fronzo, C., Dooley, K. L., Dupej, P., Etzel, T., Evans, M., Evans, T. M., Feicht, J., Fulda, P., Fyffe, M., Giaime, J. A., Giardina, K. D., Godwin, P., Goetz, E., Gras, S., Gray, C., Gray, R., Green, A. C., Gustafson, E. K., Gustafson, R., Hanks, J., Hanson, J., Hasskew, R. K., Heintze, M. C., Helmling-Cornell, A. F., Holland, N. A., Jones, J. D., Kandhasamy, S., Karki, S.

“…Really cool mirrors Cooling objects to low temperature can increase the sensitivity of sensors and the operational performance of most devices. Removing most…”
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Broadband Quantum Enhancement of the LIGO Detectors with Frequency-Dependent Squeezing by Ganapathy, D., Jia, W., Nakano, M., Xu, V., Aritomi, N., Cullen, T., Kijbunchoo, N., Dwyer, S. E., Mullavey, A., McCuller, L., Abbott, R., Abouelfettouh, I., Adhikari, R. X., Ananyeva, A., Appert, S., Arai, K., Aston, S. M., Ball, M., Ballmer, S. W., Barker, D., Barsotti, L., Berger, B. K., Betzwieser, J., Bhattacharjee, D., Billingsley, G., Biscans, S., Bode, N., Bonilla, E., Bossilkov, V., Branch, A., Brooks, A. F., Brown, D. D., Bryant, J., Cahillane, C., Cao, H., Capote, E., Clara, F., Collins, J., Compton, C. M., Cottingham, R., Coyne, D. C., Crouch, R., Csizmazia, J., Dartez, L. P., Demos, N., Dohmen, E., Driggers, J. C., Effler, A., Ejlli, A., Etzel, T., Evans, M., Feicht, J., Frey, R., Frischhertz, W., Fritschel, P., Frolov, V. V., Fulda, P., Fyffe, M., Gateley, B., Giaime, J. A., Giardina, K. D., Glanzer, J., Goetz, E., Goetz, R., Goodwin-Jones, A. W., Gras, S., Gray, C., Griffith, D., Grote, H., Guidry, T., Hall, E. D., Hanks, J., Hanson, J., Heintze, M. C., Helmling-Cornell, A. F., Holland, N. A., Hoyland, D., Huang, H. Y., Inoue, Y., James, A. L., Jennings, A., Karat, S., Karki, S., Kasprzack, M., Kawabe, K., King, P. J., Kissel, J. S., Komori, K., Kontos, A., Kumar, R., Kuns, K., Landry, M., Lantz, B., Laxen, M., Lee, K., Lesovsky, M., Llamas, F., Lormand, M., Loughlin, H. A., Macas, R.

“…Quantum noise imposes a fundamental limitation on the sensitivity of interferometric gravitational-wave detectors like LIGO, manifesting as shot noise and…”
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Squeezing the quantum noise of a gravitational-wave detector below the standard quantum limit by Jia, Wenxuan, Xu, Victoria, Kuns, Kevin, Nakano, Masayuki, Barsotti, Lisa, Evans, Matthew, Mavalvala, Nergis, Abbott, R, Abouelfettouh, I, Adhikari, R X, Ananyeva, A, Appert, S, Arai, K, Aritomi, N, Aston, S M, Ball, M, Ballmer, S W, Barker, D, Berger, B K, Betzwieser, J, Bhattacharjee, D, Billingsley, G, Bode, N, Bonilla, E, Bossilkov, V, Branch, A, Brooks, A F, Brown, D D, Bryant, J, Cahillane, C, Cao, H, Capote, E, Chen, Y, Clara, F, Collins, J, Compton, C M, Cottingham, R, Coyne, D C, Crouch, R, Csizmazia, J, Cullen, T J, Dartez, L P, Demos, N, Dohmen, E, Driggers, J C, Dwyer, S E, Effler, A, Ejlli, A, Etzel, T, Feicht, J, Frey, R, Frischhertz, W, Fritschel, P, Frolov, V V, Fulda, P, Fyffe, M, Ganapathy, D, Gateley, B, Giaime, J A, Giardina, K D, Glanzer, J, Goetz, E, Goodwin-Jones, A W, Gras, S, Gray, C, Griffith, D, Grote, H, Guidry, T, Hall, E D, Hanks, J, Hanson, J, Heintze, M C, Helmling-Cornell, A F, Huang, H Y, Inoue, Y, James, A L, Jennings, A, Karat, S, Kasprzack, M, Kawabe, K, Kijbunchoo, N, Kissel, J S, Kontos, A, Kumar, R, Landry, M, Lantz, B, Laxen, M, Lee, K, Lesovsky, M, Llamas, F, Lormand, M, Loughlin, H A, Macas, R, MacInnis, M, Makarem, C N, Mannix, B, Mansell, G L, Martin, R M, Maxwell, N, McCarrol, G

“…The Heisenberg uncertainty principle dictates that the position and momentum of an object cannot be simultaneously measured with arbitrary precision, giving…”
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Searching for the causes of anomalous Advanced LIGO noise by Berger, B. K., Goetz, E., Lantz, B., McIver, J., Nguyen, P., Pele, A., Pham, H., Rink, K., Schofield, R. M. S., Soni, S., Warner, J., Ananyeva, A., Arai, K., Asali, Y., Aston, S. M., Baer, A. M., Barsotti, L., Betzwieser, J., Bhattacharjee, D., Billingsley, G., Biscans, S., Bode, N., Booker, P., Bork, R., Brown, D. D., Cahillane, C., Clara, F., Cooper, S. J., Corley, K. R., Countryman, S. T., Covas, P. B., Coyne, D. C., Datrier, L. E. H., Davis, D., Evans, M., Evans, T. M., Frolov, V. V., Fyffe, M., Giaime, J. A., Godwin, P., Gras, S., Gray, C., Gray, R., Gupta, A., Gustafson, E. K., Hasskew, R. K., Heintze, M. C., Holland, N. A., Kijbunchoo, N., King, P. J., Kissel, J. S., Landry, M., Lecoeuche, Y. K., Leviton, J., MacInnis, M., Mansell, G. L., Márka, S., Márka, Z., Martynov, D. V., Mavalvala, N., McCarthy, R., McClelland, D. E., McCormick, S., McCuller, L., McRae, T., Merfeld, K., Meylahn, F., Nelson, T. J. N., Oberling, J., Overmier, H., Parker, W., Pirello, M., Richardson, J. W., Riles, K., Ryan, K., Sadecki, T., Sanchez, E. J., Saravanan, T. R., Schwartz, E., Shaffer, T., Slagmolen, B. J. J., Spencer, A. P., Sun, L., Thomas, M., Thomas, P., Thorne, K. A., Torrie, C. I., Vajente, G., Vander-Hyde, D. C., Venugopalan, G., Viets, A. D., Wade, M., Ward, R. L., Weiss, R., Willke, B., Yu, Hang, Yu, Haocun, Zhang, L., Zucker, M. E., Zweizig, J.

“…Advanced LIGO and Advanced Virgo have detected gravitational waves from astronomical sources to open a new window on the Universe. To explore this new realm…”
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Point Absorber Limits to Future Gravitational-Wave Detectors by Jia, Wenxuan, Yamamoto, Hiroaki, Kuns, Kevin, Effler, Anamaria, Evans, Matthew, Fritschel, Peter, Abbott, R, Adams, C, Adhikari, R X, Ananyeva, A, Appert, S, Arai, K, Areeda, J S, Asali, Y, Aston, S M, Austin, C, Baer, A M, Ball, M, Ballmer, S W, Banagiri, S, Barker, D, Barsotti, L, Bartlett, J, Berger, B K, Betzwieser, J, Bhattacharjee, D, Billingsley, G, Biscans, S, Blair, C D, Blair, R M, Bode, N, Booker, P, Bork, R, Bramley, A, Brooks, A F, Brown, D D, Buikema, A, Cahillane, C, Cannon, K C, Chen, X, Ciobanu, A A, Clara, F, Compton, C M, Cooper, S J, Corley, K R, Countryman, S T, Covas, P B, Coyne, D C, Datrier, L E H, Davis, D, Di Fronzo, C, Dooley, K L, Driggers, J C, Dupej, P, Dwyer, S E, Etzel, T, Evans, T M, Feicht, J, Fernandez-Galiana, A, Frolov, V V, Fulda, P, Fyffe, M, Giaime, J A, Giardina, K D, Godwin, P, Goetz, E, Gras, S, Gray, C, Gray, R, Green, A C, Gustafson, E K, Gustafson, R, Hall, E D, Hanks, J, Hanson, J, Hardwick, T, Hasskew, R K, Heintze, M C, Helmling-Cornell, A F, Holland, N A, Jones, J D, Kandhasamy, S, Karki, S, Kasprzack, M, Kawabe, K, Kijbunchoo, N, King, P J, Kissel, J S, Kumar, Rahul, Landry, M, Lane, B B, Lantz, B, Laxen, M, Lecoeuche, Y K, Leviton, J, Liu, J, Lormand, M, Lundgren, A P, Macas, R, MacInnis, M

“…High-quality optical resonant cavities require low optical loss, typically on the scale of parts per million. However, unintended micron-scale contaminants on…”
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Clearance and metabolism of plasma pyridoxal 5'-phosphate in the dog by Lumeng, L, Schenker, S, Li, T K, Brashear, R E, Compton, M C

“…This study was undertaken to characterize the metabolic fate of plasma pyridoxal 5'-phosphate (pyridoxal-P), the role of various organs in mediating its…”
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Search for gravitational waves emitted from SN 2023ixf by Agathos, M, Alléné, C, Ashton, G, AultONeal, K, Barish, B. C, Bartos, I, Bawaj, M, Bergamin, F, Blackburn, J. K, Blagg, L. A, Boileau, G, Bonavena, L. D, Bonilla, E, Briant, T, Brown, B. C, Carullo, G, Chan, M, Chassande-Mottin, E, Chaty, S, Cheng, H. P, Chincarini, A, Christensen, N, Colombo, A, Cottingham, R, Cuoco, E, D'Angelo, B, Dhani, A, Doctor, Z, Eichholz, J, Einsle, H, Fafone, V, Fong, H, Font, J. A, Freise, A, Gargiulo, J, Ghosh, Shrobana, Godfrey, J, Goode, S, Granata, V, Greco, G, Hanselman, A. G, Harms, J, Hoang, S, Hrishikesh, C. A, Hsieh, H. -F, James, P. A, Kawabe, K, Kawamoto, R, Khanam, T, Knee, A. M, Kwok, J, Lalleman, M, Lemaître, A, Macas, R, MacMillan, I. A. O, Martins, J. C, McElhenny, C, Mellaerts, S, Mobilia, L, Moraru, D, Moriwaki, Y, Moscatello, A, Mukund, N, Narikawa, T, Nishizawa, A, Ossokine, S, Pagano, R, Passaquieti, R, Patra, A, Patricelli, B, Penn, S, Périgois, C, Phurailatpam, H, Pinard, L, Relton, P, Renzini, A. I, Rezaei, A. S, Robinson, M, Romano, R, Sassi, P, Scialpi, M, Seo, J. W, Sharma, P, Song, I, Sorrentino, F, Soulard, R, Sturani, R, Tagoshi, H, Takatani, K, Talbot, C, Tanioka, S, Trozzo, L, Ushiba, T, Valdes, G, Brand, J. F. J. van den, Wang, J. Z, Wright, J. L, Yamamoto, H, Yasui, H, Zhang, A. C

“…We present the results of a search for gravitational-wave transients associated with core-collapse supernova SN 2023ixf, which was observed in the galaxy…”
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A search using GEO600 for gravitational waves coincident with fast radio bursts from SGR 1935+2154 by Agathos, M, Appavuravther, E. Z, Arai, K, Areeda, J. S, Banagiri, S, Banerjee, B, Basak, S, Basti, A, Blair, D. G, Booker, P, Brillet, A, Chen, A. H. -Y, Chiummo, A, Clearwater, P, Corsi, A, Crook, S, Darroch, K. E, Davenport, A, Davis, D, Doctor, Z, Driggers, J. C, Feicht, J, Fiori, I, Fleming, L. S, Frei, Z, Gardner, J. W, Gasbarra, C, Gennari, V, Ghosh, Tathagata, Goetz, E, Lopez, S. Gomez, Grassia, P, Gray, R, Gretarsson, E. M, Haba, D, Haberland, M, Hamilton, E. Z, Hardison, A. R, Harry, I. W, Hello, P, Hertog, T, Heurs, M, Ho, W. C. G, Inayoshi, K, Iqbal, M. H, Jaraba, S, Ju, L, Kaku, I, Key, J. S, Klimenko, S, Kuehn, G, Kuns, K, La Rana, A, Lin, C-Y, Lin, Y. -C, Maggio, E, Mahesh, M, Mannix, B, Markowitz, A, Martini, A, Mera, F, Mercer, R. A, Miao, H, Mishra, T, Mondin, M, Morras, G, Munch, J, Oberg, W. R. Munn, Neilson, J, Nishizawa, A, Nissanke, S, Pascucci, D, Pele, A, Pham, K. A, Prajapati, A. K, Principe, M, Prosposito, P, Robinet, F, Rosińska, D, Saffarieh, P, Santoliquido, F, Schwartz, E, Simmonds, M, Singh, A, Singh, M. K, Spencer, A. P, Strong, M. D, Swinkels, B. L, Szewczyk, P, Tait, S. C, Vacatello, M, Veitch, J, Viets, A. D, Vincent, E. T, Weaver, B. R, Wellmann, F, Wils, M, Winterflood, J, Yamazaki, R, Zhang, R

“…The magnetar SGR 1935+2154 is the only known Galactic source of fast radio bursts (FRBs). FRBs from SGR 1935+2154 were first detected by CHIME/FRB and STARE2…”
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LIGO Detector Characterization in the first half of the fourth Observing run by Soni, S, Berger, B. K, Davis, D, Renzo, F. Di, Glanzer, J, Hughey, B, Huxford, R, Neunzert, A, Nichols, S, Pham, K, Renzini, A. I, Berry, C. P. L, Bruntz, R, Christensen, N, Holley-Bockelmann, K, Jarov, S, Lecoeuche, Y, Lott, B, Malakar, D, McGowan, K, Nuttall, L, Nykamp, D, Ota, I, Scully, B, Zhang, Z, Ananyeva, A, Appert, S, Arai, K, Ballmer, S. W, Betzwieser, J, Billingsley, G, Bossilkov, V, Branch, A, Brown, D. D, Cahillane, C, Clara, F, Coyne, D. C, Dohmen, E, Driggers, J. C, Dwyer, S. E, Etzel, T, Feicht, J, Frey, R, Frischhertz, W, Ganapathy, D, Gateley, B, Goetz, R, Gras, S, Grote, H, Guidry, T, Hall, E. D, Holland, N. A, Hoyland, D, Kasprzack, M, Komori, K, Kuns, K, Lormand, M, Loughlin, H. A, MacInnis, M, Makarem, C. N, Mason, K, Matichard, F, Maxwell, N, McClelland, D. E, McCuller, L, Mera, F, Meylahn, F, Moraru, D, Moreno, G, Notte, J, O'Hanlon, T, Ottaway, D. J, Overmier, H, Parker, W, Quetschke, V, Robinson, M, Romel, C. L, Romie, J. H, Ross, M. P, Ryan, K, Sadecki, T, Sanchez, E. J, Sanchez, L. E, Schaetzl, D, Schnabel, R, Schwartz, E, Shaffer, T, Sigg, D, Soike, C, Thorne, K. A, Torrie, C. I, Traylor, G, Veitch, P. J, Vibhute, A. M, von Reis, E. R. G, Weaver, B, Weiss, R, Whittle, C, Zhang, L, Zucker, M. E

“…Progress in gravitational-wave astronomy depends upon having sensitive detectors with good data quality. Since the end of the LIGO-Virgo-KAGRA third Observing…”
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Swift-BAT GUANO follow-up of gravitational-wave triggers in the third LIGO-Virgo-KAGRA observing run by Melandri, Andrea, Osborne, Julian P, Altin, P. A, Antier, S, Aronson, S. M, Aston, S. M, Baier, J. G, Barthelmy, S. D, Basalaev, A, Bawaj, M, Bazzan, M, Bhattacharjee, D, Bhaumik, S, Binetti, A, Bondu, F, Bradaschia, C, Cabras, G, Cabrita, R, Subrahmanya, S. Chalathadka, Chiang, C, Cifaldi, M, Clarke, T. A, Crouch, R, Dabadie, P, Di Giovanni, F, Effler, A, Essick, R. C, Estevez, D, Fazio, M, Fidecaro, F, Flaminio, R, Fong, H, Freise, A, Gardner, J. W, George, R, Guerra, D, Gunny, A. M, Guzman, F, Hayakawa, H, Heffernan, A, Hennig, J. -S, Hennig, M, Hewitt, A. L, Huang, Y. T, Hughey, B, Jaranowski, P, Johnson, N. A, Kastaun, W, Kim, K, Kinley-Hanlon, M, Kissel, J. S, Koley, S, Kossak, R. V, Lange, J, Legred, I. N, Leonova, E, Lequime, M, Li, K. L, Llobera-Querol, J, Macas, R, Marsat, S, McGowan, K. B. M, Meyer-Conde, M, Michimura, Y, Moscatello, A, Nayak, R. K, Niu, W, Novak, J, Oliveira, A. S, Pasqualetti, A, Patane, O, Pathak, M, Placidi, A, Posnansky, C, Quitzow-James, R, Radulesco, N, Rana, D, Regimbau, T, Relton, P, Rossello, M, Saffarieh, P, Sah, M. R, Schnabel, R, Shaikh, M. A, Shawhan, P, Shikauchi, M, Spencer, A. P, Sueltmann, N, Trenado, J, Trozzo, L, Uchiyama, T, Ushiba, T, Vacatello, M, van Heijningen, J. V, Vedovato, G, Wellmann, F, Wong, H. T, Yan, T, Yeh, S. -W, Zhong, S

“…We present results from a search for X-ray/gamma-ray counterparts of gravitational-wave (GW) candidates from the third observing run (O3) of the…”
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Constraints on dark photon dark matter using data from LIGO's and Virgo's third observing run by Agathos, M, Agatsuma, K, Allocca, A, Appert, S, Asali, Y, Assiduo, M, Aston, S. M, Bilenko, I. A, Birney, R, Biswas, B, Brown, D. D, Canepa, M, Chia, H. Y, Cho, G, Chung, K. W, Clearwater, P, Clesse, S, Cohen, D. E, DaneshgaranBajastani, L. M, De Rossi, C, Di Girolamo, T, Di Pace, S, Duverne, P. -A, Etienne, Z, Flaminio, R, Fukushima, M, Giacomazzo, B, Giardina, K. D, Gissi, F, Green, A. C, Guerra, D, Haris, K, Hayakawa, H, Heng, I. S, Hill, P, Holmes, Z. J, Hopkins, P, Huddart, A. D, Inayoshi, K, Ioka, K, Kalogera, V, Kasprzack, M, Key, J. S, Khan, S, Kim, J, Kim, Y. -M, Krishnendu, N. V, Leaci, P, Lehmann, J, Liu, G. C, Matiushechkina, M, McRae, T, Mendell, G, Miller, B, Millhouse, M, Miyamoto, A, Morisaki, S, Murray, P. G, Negishi, R, Neil, B. F, Nelson, T. J. N, Nguyen, P, Nocera, F, Oberling, J, Palomba, C, Park, J, Pathak, M, Arellano, F. E. Peña, Piendibene, M, Pilo, F, Pinto, M, Ponrathnam, S, Prudenzi, L, Razzano, M, Rees, L. A, Romero-Shaw, I. M, Ross, M. P, Sadiq, J, Saito, Y, Schaetzl, D, Sentenac, D, Shams, B, Sieniawska, M, Sigg, D, Sintes, A. M, Srivastava, A. K, Tasson, J. D, Trevor, M, Tsai, D, Tsang, T, Valsan, V, van Bakel, N, Verkindt, D, Wang, J, Ward, R. L, Yamamoto, Kazuhiro, Yamashita, K, Yokozawa, T, Yu, Haocun, Zhang, T

“…Phys. Rev. D 105, 063030, 2022 We present a search for dark photon dark matter that could couple to gravitational-wave interferometers using data from Advanced…”
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Observation of Gravitational Waves from the Coalescence of a $2.5\text{-}4.5~M_\odot$ Compact Object and a Neutron Star by Agathos, M, Aronson, S. M, Belardinelli, D, Bentara, I, Bentley, J. D, Bersanetti, D, Boudon, A, Bryant, J, Callister, T. A, Chatterjee, Debarati, Chen, H. Y, Chierici, R, Craig, K, Criswell, A. W, Datta, S, Dattilo, V, De Laurentis, M, Dohmen, E, Dooney, T, Edo, T. B, Favaro, G, Fenyvesi, E, Fleischer, S. M, Foley, E. M, Forsyth, P. W. F, Frolov, V. V, Gergely, L, Giri, P, Green, S. M, Guerra, D, Guo, H, Hough, J, Hu, Q, Huang, H. Y, Imafuku, H, Itoh, Y, Juste, V, Kanner, J. B, Khanam, T, Kimball, C, Knust, N, Koekoek, G, Lin, C-Y, Lin, H, Lumaca, D, McCuller, L, Mobilia, L, Moraru, D, Moriwaki, Y, Murray, P. G, Narayan, P, Narikawa, T, Ossokine, S, Panther, F. H, Paolone, A, Passaquieti, R, Patra, A, Patricelli, B, Penn, S, Périgois, C, Perreca, A, Pinard, L, Piotrzkowski, B. J, Placidi, E, Quinonez, P. J, Relton, P, Renzini, A. I, Rezaei, A. S, Romano, R, Rossello, M, Saha, S. S, Saleem, M, Schouteden, K, Scialpi, M, Shao, L, Sharma, A. K, Shinkai, H, Singh, S, Sintes, A. M, Song, I, Sordini, V, Sotani, H, Suchenek, M, Szewczyk, P, Tripathee, A, Troiano, L, Trudeau, R. J, Vajpeyi, A, Veitch, J, Viets, A. D, Vincent, E. T, Vocca, H, Was, M, Wellmann, F, Wright, J. L, Wu, C, Yamamoto, H, Yamazaki, R, Zhang, A. C, Zucker, M. E

“…ApJL 970, L34 (2024) We report the observation of a coalescing compact binary with component masses $2.5\text{-}4.5~M_\odot$ and $1.2\text{-}2.0~M_\odot$ (all…”
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Ultralight vector dark matter search using data from the KAGRA O3GK run by Adkins, V. K, Alfaidi, R. A, Anand, S, Anderson, S. B, Beirnaert, F, Bhatt, R, Birnholtz, O, Bose, S, Brillet, A, Bulten, H. J, Chen, H. Y, Chen, X, Chiba, R, Chincarini, A, Christensen, N, Ciani, G, Coccia, E, Couineaux, A, Crowder, S. G, Danilishin, S, D'Antonio, S, Davies, T. F, Davis, L, Di Palma, I, Donovan, F, Dooley, K. L, D'Urso, D, Duverne, P. -A, Eddolls, G, Engl, A. J, Errico, L, Fong, H, Freise, A, Gamboa, A, Gaonkar, S. G, Giri, P, Gray, C, Griffiths, W. L, Gupta, S. K, Hannuksela, O. A, Haris, K, Hines, A. S, Hirose, C, Holland, N. A, Huang, Y. T, Jaranowski, P, Johnson, N. A, Kato, T, Khan, F, Kim, K, Kinnear, M, Kontos, A, Kossak, R. V, Kranzhoff, S. L, Ramamohan, A. Kulur, Lecoeuche, Y. K, Levesque, C, Lin, Chun-Yu, Maeda, K, Martynov, D. V, McGhee, G. I, McGowan, K. B. M, McKinney, K, Messick, C, Minenkov, Y, Mours, B, Novak, J, Ossokine, S, Perriès, S, Placidi, A, Powell, J, Pradhan, B. K, Pradier, T, Prasia, P, Qi, H, Quitzow-James, R, Relton, P, Rittmeyer, J, Robinson, M, Rosińska, D, Sako, T, Sanchez, E. J, Sänger, E. M, Savage, R. L, Schofield, R. M. S, Shao, L, Slagmolen, B. J. J, Smith, J. R, Strang, L. C, Toscani, M, Troiano, L, Trudeau, R. J, Vajpeyi, A, Wallace, G. S, Wellmann, F, Wright, J. L, Yamamoto, H, Yamazaki, R, Yang, Y, Zanolin, M

“…Among the various candidates for dark matter (DM), ultralight vector DM can be probed by laser interferometric gravitational wave detectors through the…”
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GWTC-3: Compact Binary Coalescences Observed by LIGO and Virgo During the Second Part of the Third Observing Run by Agathos, M, Agatsuma, K, Anderson, W. G, Appert, S, Aubin, F, Badaracco, F, Baird, J, Beniwal, D, Boschi, V, Capocasa, E, Caudill, S, Chaibi, W, Chan, M, Chassande-Mottin, E, Chaty, S, Chiofalo, M. L, Ciobanu, A. A, Colleoni, M, Criswell, A. W, Dasgupta, A, Degallaix, J, De Matteis, F, DeSalvo, R, Díaz, M. C, Doravari, S, Drago, M, Errico, L, Fair, H, Fiumara, V, Franke, A, Fronzé, G. G, García, F, Garufi, F, Gleckl, A. E, Godwin, P, Green, A. C, Gretarsson, E. M, Hansen, T. J, Haris, K, Hill, P, Holmes, Z. J, Hoy, C. G, Huddart, A. D, Imam, S, JaberianHamedan, V, Karat, S, Kawasaki, T, Kleybolte, L, Kondrashov, V, Kozu, R, Kumar, Rahul, Kuwahara, S, La Rosa, I, Lasky, P. D, Laxen, M, Li, T. G. F, Linley, J. N, Liu, K, London, L. T, Masalehdan, H, McCarthy, R, Messenger, C, Meylahn, F, Morrás, G, Nadji, S. L, Nakashima, R, Nichols, S. A, Olivetto, C, Ormiston, R. G, Oshino, S, Palashov, O, Park, H, Patricelli, B, Patron, A. S, Piccinni, O. J, Pirello, M, Plastino, W, Powell, J, Prajapati, A. K, Rowlinson, S. J, Rozza, D, Salemi, F, Schiworski, M, Setyawati, Y, Slaven-Blair, T. J, Steer, D. A, Strunk, A, Sur, A, Takahashi, R, Tanaka, H, Valentini, M, Vocca, H, Wade, M, Williams, D, Wilson, D. J, Yang, Y, Yu, Hang, Zadrożny, A, Zhang, H, Zucker, M. E

“…Phys. Rev. X; 13(4):041039; 2023 The third Gravitational-Wave Transient Catalog (GWTC-3) describes signals detected with Advanced LIGO and Advanced Virgo up to…”
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A Joint Fermi-GBM and Swift-BAT Analysis of Gravitational-Wave Candidates from the Third Gravitational-wave Observing Run by Veres, P, Cleveland, W. H, Poolakkil, S, Caputo, R, Agathos, M, Andríc, T, Baka, T, Barsuglia, M, Bennett, T. F, Berbel, M, Buscicchio, R, Canepa, M, Cavaglià, M, Cesarini, E, Chu, Y. K, Chua, S. S. Y, Chung, K. W, Cotesta, R, Cuoco, E, D'Angelo, B, Dave, I, Davier, M, Degallaix, J, De Rosa, R, Di Fronzo, C, Duverne, P. A, Effler, A, Eisenmann, M, Estevez, D, Evans, M, Fafone, V, Farr, B, Fiori, A, Fittipaldi, R, Frei, Z, Frey, R, Fyffe, M, Gaonkar, S. G, Giacoppo, L, Giaime, J. A, Goncharov, B, Graham, V, Guimaraes, A. R, Guo, Y, Haegel, L, Halim, O, Hall, E. D, Hattori, K, Huang, H. Y, Hübner, M. T, Isleif, K, Jung, P, Kanner, J. B, Kim, J, Knust, N, Koekoek, G, Kondrashov, V, Kumar, Prayush, Kume, J, Lalande, E, Lalleman, M, Landry, M, Lantz, B, Marsat, S, Menendez-Vazquez, A, Messick, C, Meyers, P. M, Michimura, Y, Miller, A. L, Miller, A, Mo, Geoffrey, Morawski, F, Mours, B, Nakano, H, Ormsby, N. D, Pankow, C, Patel, M, Perez, C. J, Petterson, D, Pichot, M, Pong, D. Y. T, Quinonez, P. J, Ramirez, K. E, Rettegno, P, Rodriguez, S, Roy, S, Sakellariadou, M, Sanders, J. R, Savant, V, Sengupta, A. S, Shcheblanov, N. S, Singer, L. P, Singha, A, Spencer, A. P, Steinlechner, J, Takeda, H, Terhune, J. E. S, Travasso, F, Vocca, H, Yoshioka, T

“…We present Fermi Gamma-ray Burst Monitor (Fermi-GBM) and Swift Burst Alert Telescope (Swift-BAT) searches for gamma-ray/X-ray counterparts to gravitational…”
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Search for Eccentric Black Hole Coalescences during the Third Observing Run of LIGO and Virgo by Amato, A, Badger, C, Beirnaert, F, Beniwal, D, Brillet, A, Callaghan, J. D, Chalathadka-Subrahmanya, S, Chiba, R, Chincarini, A, Christensen, N, Ciani, G, Coccia, E, Cousins, B, Crouch, R, Dell'Aquila, D, Del Pozzo, W, Demos, N, Dohmen, E, Dooney, T, Ducoin, J. -G, Ferreira, T. A, Fleischer, S. M, Goetz, E, Graham, V, Heinzel, J, Hertog, T, Heurs, M, Hong, Q, Hoy, C. G, Hu, P, Husa, S, Iosif, P, Isi, M, Ismail, M. A, Jin, H. -B, Kas-danouche, Y. A, Kato, T, Khalili, F. Y, Kijbunchoo, N, Kim, C, Kranzhoff, S. L, Ramamohan, A. Kulur, Lalleman, M, Lecoeuche, Y. K, Levesque, C, Lin, Chun-Yu, Locquet, J. -P, Lorenzini, M, Loriette, V, Loughlin, H. A, Lovelace, G, Lundgren, A. P, Ma'arif, M, Maeda, K, Mannix, B, Masserot, A, Meyer-Conde, M, Michaloliakos, I, Morawski, F, Moriwaki, Y, Munch, J, Narola, H, Nelson, T. J. N, Obayashi, K, Pegna, R, Perry, J. W, Petermann, J, Pitkin, M. D, Powell, J, Pradhan, B. K, Pradier, T, Prasai, K, Prasia, P, Qi, H, Raffai, P, Raymond, V, Reid, S, Riles, K, Royzman, A, Morales, E. Ruiz, Sänger, E. M, Servignat, G, Shawhan, P, Shen, B, Shoemaker, D. H, Siegel, H, Sipala, V, Strunk, A, Summerscales, T. Z, Sun, L, Tamanini, N, Traylor, G, Tsuchida, S, Uchikata, N, Vajente, G, Walker, M, Watarai, D, Yeh, S. -W, Zadrożny, A, Zelenova, T

“…Despite the growing number of confident binary black hole coalescences observed through gravitational waves so far, the astrophysical origin of these binaries…”
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Search for gravitational-lensing signatures in the full third observing run of the LIGO-Virgo network by the KAGRA Collaboration, Apostolatos, T, Aston, S. M, Badger, C, Bankar, D, Barneo, P, Berbel, M, Booker, P, Bose, S, Bruno, G, Buskulic, D, Davies, G. S. Cabourn, Chen, X, Cornish, N. J, Countryman, S. T, Cullen, T. J, Dax, M, D'Emilio, V, Diab, R, Díaz, M. C, Didio, N. A, Ducoin, J. -G, Edelman, B, Favaro, G, Fernandez-Galiana, A, Frey, R, Gateley, B, Gayathri, V, Gustafson, R, Halim, O, Hall, E. D, Vivanco, F. Hernandez, Higginbotham, S, Hirose, C, Huang, Y, Jenkins, A. C, Kijbunchoo, N, Kolitsidou, P, Kuehn, G, Kuroyanagi, S, Laghi, D, MacInnis, M, Macleod, D. M, Man, N, Marion, F, Márka, Z, Martinez, V, Marx, E. J, Mason, K, Masso-Reid, M, Mavalvala, N, McClelland, D. E, Meacher, D, Mereni, L, Michel, C, Mihaylov, D. P, Mio, N, Mir, Ll. M, Mohite, S. R, Nagano, K, Narola, H, Nelson, A, Ni, J, O'Hanlon, T, Ohme, F, Oshino, S, Patricelli, B, Patron, A. S, Périgois, C, Pilo, F, Plastino, W, Puecher, A, Rail, S. X, Ramirez, T. D, Reid, S. W, Rettegno, P, Romero, A, Romero-Shaw, I. M, Roy, Santosh, Royzman, A, Samajdar, A, Sathyaprakash, B. S, Sheela, A, Swinkels, B. L, Tamanini, N, Thomas, S, Trapananti, A, Ueshima, G, Vargas, A. F, Varma, V, Vecchio, A, Venugopalan, G, Verdier, P, Verma, P, Ward, R. L, Wu, D. S, Yang, Y. -C, Zhang, Y, Zheng, Y, Zimmerman, A. B

“…Gravitational lensing by massive objects along the line of sight to the source causes distortions of gravitational wave-signals; such distortions may reveal…”
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Search for gravitational-wave transients associated with magnetar bursts in Advanced LIGO and Advanced Virgo data from the third observing run by Agathos, M, Agatsuma, K, Anderson, W. G, Araya, A, Araya, M. C, Ballardin, G, Ballmer, S. W, Bartlett, J, Becher, B. R, Bejger, M, Bhandare, R, Bork, R, Boudart, V, Brinkmann, M, Cahillane, C, Carapella, G, Cavalieri, R, Chan, K, Chandra, K, Chen, K, Ciobanu, A. A, Codazzo, E, Corre, D, Creighton, T. D, Curyło, M, DeBra, D, DeMarchi, L. M, Depasse, A, Doctor, Z, Ducoin, J. -G, Engelby, E, Fabrizi, F, Fair, H, Fiori, I, Franke, A, Freitas, O, Fujikawa, Y, Gamba, R, Gkaitatzis, S, Goetz, R, Gouaty, R, Grimes, E, Hamilton, E. Z, Haney, M, Hasegawa, K, Hellman, F, Hild, S, Hofman, D, Holz, D. E, Huang, Y. -J, Joshi, P, Kao, Y, Kapadia, S. J, Karki, S, Khetan, N, Kim, J. C, Koch, P, Komori, K, La Rosa, I, Lee, H. W, Li, K. L, Lin, F-L, Lück, H, Luo, L. -W, Majorana, E, Mangano, V, Mastrogiovanni, S, Napolano, V, Nozaki, S, Oh, S. H, Ohme, F, Panther, F. H, Passuello, D, Pegoraro, M, Pilo, F, Plastino, W, Prodi, G. A, Rajan, C, Relton, P, Rose, C. A, Ruiz-Rocha, K, Sachdev, S, Sawant, H. L, Schutz, B. F, Sharma, A, Shoda, A, Sordini, V, Tanner, D. B, Thirugnanasambandam, M. P, Tiwari, Srishti, Tso, R, Ueda, A, Ueshima, G, Veske, D, Vinet, J. -Y, Vitale, S, Wang, J. Z, Wu, D. S, Yang, F. W, Zelenova, T

“…Gravitational waves are expected to be produced from neutron star oscillations associated with magnetar giant flares and short bursts. We present the results…”
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Narrowband searches for continuous and long-duration transient gravitational waves from known pulsars in the LIGO-Virgo third observing run by Agathos, M, Agatsuma, K, Allocca, A, Appert, S, Asali, Y, Assiduo, M, Aston, S. M, Barker, D, Bayley, J. C, Bennett, T. F, Bilenko, I. A, Breschi, M, Canepa, M, Cannavacciuolo, M, Carullo, G, Chatterjee, Debarati, Ciani, G, Corley, K. R, Cowart, M. J, Coyne, R, Crowder, S. G, Eckhardt, T, Edo, T. B, Enomoto, Y, Favaro, G, Fernandez-Galiana, A, Fishbach, M, Frey, R, Guerra, D, Gupta, Anchal, Gupta, Anuradha, Heinzel, J, Hemming, G, Hirose, E, Iess, A, Janthalur, N. N, Jaume, R, Jones, A. W, Juste, V, Kawasaki, T, Kleybolte, L, Kondrashov, V, Kozu, R, Kume, J, Lang, R. N, Lartaux-Vollard, A, Lasky, P. D, Laxen, M, Levin, Y, Littenberg, T. B, Liu, K, Lorenzini, M, Loriette, V, Maggiore, R, Martynov, D. V, Massera, E, Mavalvala, N, Melatos, A, Merritt, J. D, Milano, L, Miravet-Tenés, M, Miyo, K, Molina, I, Naticchioni, L, O'Dell, J, Petermann, J, Porter, E. K, Raja, S, Rapagnani, P, Raymond, V, Raza, N, Rei, L, Richardson, L, Saleem, M, Sato, S, Shikauchi, M, Shoemaker, D. M, Singh, D, Skliris, V, Steinlechner, S, Tanaka, Taiki, Martín, E. N. Tapia San, Telada, S, Tsao, J-S, Uchiyama, T, Brand, J. F. J. van den, Verma, P, Vidyant, S, Vo, T, Wade, M, Washington, N. Y, Wette, K, Winkler, W, Wu, H, Zhao, C, Zweizig, J, Arzoumanian, Z, Lower, M. E, Palfreyman, J. L, Shannon, R. M

“…ApJ, 932, 133 (2022) Isolated neutron stars that are asymmetric with respect to their spin axis are possible sources of detectable continuous gravitational…”
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Search for continuous gravitational wave emission from the Milky Way center in O3 LIGO--Virgo data by Agathos, M, Agatsuma, K, Anderson, W. G, Araya, A, Araya, M. C, Babak, S, Ball, M, Ballmer, S. W, Barish, B. C, Bartos, I, Bitossi, M, Bizouard, M. -A, Boschi, V, Brunett, S, Bulik, T, Cannon, K. C, Cella, G, Cesarini, E, Chaturvedi, M, Choudhary, S, Cieślar, M, Compton, C. M, Dave, I, Del Favero, V, Drago, M, Effler, A, Fafone, V, Fiori, A, Font, J. A, Frasca, S, Gabbard, H. A, Ghosh, Archisman, Gibson, D. R, Godwin, P, Goetz, E, Green, A. C, Gretarsson, A. M, Grimes, E, Hattori, K, Hellman, F, Himemoto, Y, Holz, D. E, Hsieh, H-F, Jacquet, P. -E, Jadhav, S. J, Kalaghatgi, C. V, Katzman, W, Kawabe, K, Landry, M, Lee, E, Lin, F-L, Lo, T, Losurdo, G, Matas, A, Matiushechkina, M, McClincy, P. K, McRae, T, Merfeld, K, Merilh, E. L, Merzougui, M, Minenkov, Y, Moguel, E, Moreno, C, Mozzon, S, Mukherjee, Subroto, Oelker, E, Ohkawa, M, Ormsby, N. D, Oshino, S, Pinto, I. M, Pirello, M, Prajapati, A. K, Prasai, K, Puosi, F, Puppo, P, Quinonez, P. J, Rettegno, P, Rodriguez, S, Sanchez, J. H, Sanchez, L. E, Satari, H, Sawant, H. L, Schutz, B. F, Sharma, A, Shoda, A, Sordini, V, Tanner, D. B, Thirugnanasambandam, M. P, Tiwari, Srishti, Tso, R, Ueda, A, Ueshima, G, Veske, D, Vinet, J. -Y, Vitale, S, Wade, M, Wang, J. Z, Wu, D. S, Yang, F. W, Zelenova, T

“…We present a directed search for continuous gravitational wave (CW) signals emitted by spinning neutron stars located in the inner parsecs of the Galactic…”
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