Article,
Laser with an in-loop relative frequency stability of 1.0 x 10sup -21 on a 100-ms time scale for gravitational-wave detection
F. Acernese, M. Alshourbagy, F. Antonucci, S. Aoudia, K. Arun, P. Astone, G. Ballardin, F. Barone, L. Barsotti, M. Barsuglia, Th, S. Bigotta, S. Birindelli, M. Bizouard, C. Boccara, F. Bondu, L. Bonelli, L. Bosi, S. Braccini, C. Bradaschia, A. Brillet, V. Brisson, H. Bulten, D. Buskulic, G. Cagnoli, E. Calloni, E. Campagna, B. Canuel, F. Carbognani, L. Carbone, F. Cavalier, R. Cavalieri, G. Cella, E. Cesarini, C. Mottin, S. Chatterji, F. Cleva, E. Coccia, J. Colas, M. Colombini, C. Corda, A. Corsi, F. Cottone, J. Coulon, E. Cuoco, S. D'Antonio, A. Dari, V. Dattilo, M. Davier, R. Rosa, M. Prete, L. Fiore, A. Lieto, D. Paolo, A. Virgilio, V. Fafone, I. Ferrante, F. Fidecaro, I. Fiori, R. Flaminio, J. Fournier, S. Frasca, F. Frasconi, L. Gammaitoni, F. Garufi, G. Gemme, E. Genin, A. Gennai, A. Giazotto, M. Granata, V. Granata, C. Greverie, G. Guidi, H. Heitmann, P. Hello, S. Hild, D. Huet, P. Penna, M. Laval, N. Leroy, N. Letendre, M. Lorenzini, V. Loriette, G. Losurdo, J. Mackowski, E. Majorana, N. Man, M. Mantovani, F. Marchesoni, F. Marion, J. Marque, F. Martelli, A. Masserot, F. Menzinger, C. Michel, L. Milano, Y. Minenkov, S. Mitra, M. Mohan, J. Moreau, N. Morgado, A. Morgia, S. Mosca, B. Mours, I. Neri, F. Nocera, G. Pagliaroli, C. Palomba, F. Paoletti, S. Pardi, A. Pasqualetti, R. Passaquieti, D. Passuello, G. Persichetti, F. Piergiovanni, L. Pinard, R. Poggiani, M. Punturo, P. Puppo, O. Rabaste, P. Rapagnani, T. Regimbau, F. Ricci, A. Rocchi, L. Rolland, R. Romano, P. Ruggi, B. Sassolas, D. Sentenac, B. Swinkels, R. Terenzi, A. Toncelli, M. Tonelli, E. Tournefier, F. Travasso, J. Trummer, G. Vajente, J. van den Brand, S. van der Putten, D. Verkindt, F. Vetrano, A. Viceré, J. Vinet, H. Vocca, M. Was, and M. Yvert.Physical Review A (Atomic, Molecular, and Optical Physics), 79 (5): 053824+ (2009)
DOI: 10.1103/PhysRevA.79.053824
Abstract
We report on the stabilization of the laser frequency for the Virgo gravitational-wave detector. We have obtained a frequency noise level, measured in loop, of 1.9×10−7 Hz/ at 10 Hz for the 1064 nm laser; this value is limited by shot noise. The Allan standard deviation for relative frequency noise is 1.0×10−21 on a 100-ms time scale. The spectral density of the laser frequency noise is negligible in the channel where gravitational waves ought to appear and meets the specifications for the target spectral resolution of the Virgo interferometer in the 10 Hz–10 kHz detection bandwidth.
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- citeulike:4544899
- entry type
- article
- year
- 2009
- journal
- Physical Review A (Atomic, Molecular, and Optical Physics)
- number
- 5
- pages
- 053824+
- publisher
- APS
- volume
- 79
- posted-at
- 2009-05-19 13:37:25
- citeulike-article-id
- 4544899
- priority
- 2
- DOI
- 10.1103/PhysRevA.79.053824
- url
- http://dx.doi.org/10.1103/PhysRevA.79.053824
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%1 citeulike:4544899
%A Acernese, F.
%A Alshourbagy, M.
%A Antonucci, F.
%A Aoudia, S.
%A Arun, K. G.
%A Astone, P.
%A Ballardin, G.
%A Barone, F.
%A Barsotti, L.
%A Barsuglia, M.
%A Th,
%A Bigotta, S.
%A Birindelli, S.
%A Bizouard, M. A.
%A Boccara, C.
%A Bondu, F.
%A Bonelli, L.
%A Bosi, L.
%A Braccini, S.
%A Bradaschia, C.
%A Brillet, A.
%A Brisson, V.
%A Bulten, H. J.
%A Buskulic, D.
%A Cagnoli, G.
%A Calloni, E.
%A Campagna, E.
%A Canuel, B.
%A Carbognani, F.
%A Carbone, L.
%A Cavalier, F.
%A Cavalieri, R.
%A Cella, G.
%A Cesarini, E.
%A Mottin, Chassande E.
%A Chatterji, S.
%A Cleva, F.
%A Coccia, E.
%A Colas, J.
%A Colombini, M.
%A Corda, C.
%A Corsi, A.
%A Cottone, F.
%A Coulon, J. P.
%A Cuoco, E.
%A D'Antonio, S.
%A Dari, A.
%A Dattilo, V.
%A Davier, M.
%A Rosa, R. De
%A Prete, M. Del
%A Fiore, L. Di
%A Lieto, A. Di
%A Paolo, Di
%A Virgilio, A. Di
%A Fafone, V.
%A Ferrante, I.
%A Fidecaro, F.
%A Fiori, I.
%A Flaminio, R.
%A Fournier, J. D.
%A Frasca, S.
%A Frasconi, F.
%A Gammaitoni, L.
%A Garufi, F.
%A Gemme, G.
%A Genin, E.
%A Gennai, A.
%A Giazotto, A.
%A Granata, M.
%A Granata, V.
%A Greverie, C.
%A Guidi, G.
%A Heitmann, H.
%A Hello, P.
%A Hild, S.
%A Huet, D.
%A Penna, P. La
%A Laval, M.
%A Leroy, N.
%A Letendre, N.
%A Lorenzini, M.
%A Loriette, V.
%A Losurdo, G.
%A Mackowski, J. M.
%A Majorana, E.
%A Man, N.
%A Mantovani, M.
%A Marchesoni, F.
%A Marion, F.
%A Marque, J.
%A Martelli, F.
%A Masserot, A.
%A Menzinger, F.
%A Michel, C.
%A Milano, L.
%A Minenkov, Y.
%A Mitra, S.
%A Mohan, M.
%A Moreau, J.
%A Morgado, N.
%A Morgia, A.
%A Mosca, S.
%A Mours, B.
%A Neri, I.
%A Nocera, F.
%A Pagliaroli, G.
%A Palomba, C.
%A Paoletti, F.
%A Pardi, S.
%A Pasqualetti, A.
%A Passaquieti, R.
%A Passuello, D.
%A Persichetti, G.
%A Piergiovanni, F.
%A Pinard, L.
%A Poggiani, R.
%A Punturo, M.
%A Puppo, P.
%A Rabaste, O.
%A Rapagnani, P.
%A Regimbau, T.
%A Ricci, F.
%A Rocchi, A.
%A Rolland, L.
%A Romano, R.
%A Ruggi, P.
%A Sassolas, B.
%A Sentenac, D.
%A Swinkels, B. L.
%A Terenzi, R.
%A Toncelli, A.
%A Tonelli, M.
%A Tournefier, E.
%A Travasso, F.
%A Trummer, J.
%A Vajente, G.
%A van den Brand, J. F. J.
%A van der Putten, S.
%A Verkindt, D.
%A Vetrano, F.
%A Viceré, A.
%A Vinet, J. Y.
%A Vocca, H.
%A Was, M.
%A Yvert, M.
%D 2009
%I APS
%J Physical Review A (Atomic, Molecular, and Optical Physics)
%K mio, virgo
%N 5
%P 053824+
%R 10.1103/PhysRevA.79.053824
%T Laser with an in-loop relative frequency stability of 1.0 x 10sup -21 on a 100-ms time scale for gravitational-wave detection
%U http://dx.doi.org/10.1103/PhysRevA.79.053824
%V 79
%X We report on the stabilization of the laser frequency for the Virgo gravitational-wave detector. We have obtained a frequency noise level, measured in loop, of 1.9×10−7 Hz/ at 10 Hz for the 1064 nm laser; this value is limited by shot noise. The Allan standard deviation for relative frequency noise is 1.0×10−21 on a 100-ms time scale. The spectral density of the laser frequency noise is negligible in the channel where gravitational waves ought to appear and meets the specifications for the target spectral resolution of the Virgo interferometer in the 10 Hz–10 kHz detection bandwidth.
@article{citeulike:4544899,
abstract = {We report on the stabilization of the laser frequency for the Virgo gravitational-wave detector. We have obtained a frequency noise level, measured in loop, of 1.9\×10\−7\ \ Hz/ at 10 Hz for the 1064 nm laser; this value is limited by shot noise. The Allan standard deviation for relative frequency noise is 1.0\×10\−21 on a 100-ms time scale. The spectral density of the laser frequency noise is negligible in the channel where gravitational waves ought to appear and meets the specifications for the target spectral resolution of the Virgo interferometer in the 10 Hz\–10 kHz detection bandwidth.},
added-at = {2009-05-19T18:00:18.000+0200},
author = {Acernese, F. and Alshourbagy, M. and Antonucci, F. and Aoudia, S. and Arun, K. G. and Astone, P. and Ballardin, G. and Barone, F. and Barsotti, L. and Barsuglia, M. and Th and Bigotta, S. and Birindelli, S. and Bizouard, M. A. and Boccara, C. and Bondu, F. and Bonelli, L. and Bosi, L. and Braccini, S. and Bradaschia, C. and Brillet, A. and Brisson, V. and Bulten, H. J. and Buskulic, D. and Cagnoli, G. and Calloni, E. and Campagna, E. and Canuel, B. and Carbognani, F. and Carbone, L. and Cavalier, F. and Cavalieri, R. and Cella, G. and Cesarini, E. and Mottin, Chassande E. and Chatterji, S. and Cleva, F. and Coccia, E. and Colas, J. and Colombini, M. and Corda, C. and Corsi, A. and Cottone, F. and Coulon, J. P. and Cuoco, E. and D'Antonio, S. and Dari, A. and Dattilo, V. and Davier, M. and Rosa, R. De and Prete, M. Del and Fiore, L. Di and Lieto, A. Di and Paolo, Di and Virgilio, A. Di and Fafone, V. and Ferrante, I. and Fidecaro, F. and Fiori, I. and Flaminio, R. and Fournier, J. D. and Frasca, S. and Frasconi, F. and Gammaitoni, L. and Garufi, F. and Gemme, G. and Genin, E. and Gennai, A. and Giazotto, A. and Granata, M. and Granata, V. and Greverie, C. and Guidi, G. and Heitmann, H. and Hello, P. and Hild, S. and Huet, D. and Penna, P. La and Laval, M. and Leroy, N. and Letendre, N. and Lorenzini, M. and Loriette, V. and Losurdo, G. and Mackowski, J. M. and Majorana, E. and Man, N. and Mantovani, M. and Marchesoni, F. and Marion, F. and Marque, J. and Martelli, F. and Masserot, A. and Menzinger, F. and Michel, C. and Milano, L. and Minenkov, Y. and Mitra, S. and Mohan, M. and Moreau, J. and Morgado, N. and Morgia, A. and Mosca, S. and Mours, B. and Neri, I. and Nocera, F. and Pagliaroli, G. and Palomba, C. and Paoletti, F. and Pardi, S. and Pasqualetti, A. and Passaquieti, R. and Passuello, D. and Persichetti, G. and Piergiovanni, F. and Pinard, L. and Poggiani, R. and Punturo, M. and Puppo, P. and Rabaste, O. and Rapagnani, P. and Regimbau, T. and Ricci, F. and Rocchi, A. and Rolland, L. and Romano, R. and Ruggi, P. and Sassolas, B. and Sentenac, D. and Swinkels, B. L. and Terenzi, R. and Toncelli, A. and Tonelli, M. and Tournefier, E. and Travasso, F. and Trummer, J. and Vajente, G. and van den Brand, J. F. J. and van der Putten, S. and Verkindt, D. and Vetrano, F. and Vicer\'{e}, A. and Vinet, J. Y. and Vocca, H. and Was, M. and Yvert, M.},
biburl = {https://www.bibsonomy.org/bibtex/28565b0291eb830f6028a6a1deaff7e52/earthfare},
citeulike-article-id = {4544899},
description = {CiteULike: Everyone's library},
doi = {10.1103/PhysRevA.79.053824},
interhash = {a26b6de9e6bda1badd23797f438a9796},
intrahash = {8565b0291eb830f6028a6a1deaff7e52},
journal = {Physical Review A (Atomic, Molecular, and Optical Physics)},
keywords = {mio, virgo},
number = 5,
pages = {053824+},
posted-at = {2009-05-19 13:37:25},
priority = {2},
publisher = {APS},
timestamp = {2009-05-19T18:03:27.000+0200},
title = {Laser with an in-loop relative frequency stability of 1.0 x 10[sup -21] on a 100-ms time scale for gravitational-wave detection},
url = {http://dx.doi.org/10.1103/PhysRevA.79.053824},
volume = 79,
year = 2009
}