Demonstration of an optical spring in the 100g mirror regime

被引：4

作者：

Edgar, M. P. ^{[1
]}

Macarthur, J. ^{[1
]}

Barr, B. W. ^{[1
]}

Hild, S. ^{[1
]}

Huttner, S. ^{[1
]}

Sorazu, B. ^{[1
]}

Strain, K. A. ^{[1
]}

机构：

[1] Univ Glasgow, Sch Phys & Astron, SUPA, Glasgow G12 8QQ, Lanark, Scotland

来源：

CLASSICAL AND QUANTUM GRAVITY | 2016年 / 33卷 / 07期

基金：

英国科学技术设施理事会;

关键词：

optical spring; interferometry; gravitational wave;

D O I：

10.1088/0264-9381/33/7/075007

中图分类号：

P1 [天文学];

学科分类号：

0704 ;

摘要：

Optical rigidity will play an important role in future generations of gravitational wave (GW) interferometers which employ high laser power in order to reach and exceed the standard quantum limit. Several experiments have demonstrated the optical spring effect for very low weight mirror masses. In this paper we extend this to a mass and frequency regime more directly applicable to GW detectors. Using a 100 g end mirror mass we demonstrate an optical spring resonant at 500 Hz and a stiffness of 9.4 x 10(5) N m(-1). The 100 g to 1 kg mass regime may also be useful for the application as a readout mirror for optical bar or optical lever configurations.

引用

页数：8

共 27 条

[1] Characterization of the LIGO detectors during their sixth science run [J].

Aasi, J. ;

Abadie, J. ;

Abbott, B. P. ;

Abbott, R. ;

Abbott, T. ;

Abernathy, M. R. ;

Accadia, T. ;

Acernese, F. ;

Adams, C. ;

Adams, T. ;

Adhikari, R. X. ;

Affeldt, C. ;

Agathos, M. ;

Aggarwal, N. ;

Aguiar, O. D. ;

Ajith, P. ;

Allen, B. ;

Allocca, A. ;

Ceron, E. Amador ;

Amariutei, D. ;

Anderson, R. A. ;

Anderson, S. B. ;

Anderson, W. G. ;

Arai, K. ;

Araya, M. C. ;

Arceneaux, C. ;

Areeda, J. ;

Ast, S. ;

Aston, S. M. ;

Astone, P. ;

Aufmuth, P. ;

Aulbert, C. ;

Austin, L. ;

Aylott, B. E. ;

Babak, S. ;

Baker, P. T. ;

Ballardin, G. ;

Ballmer, S. W. ;

Barayoga, J. C. ;

Barker, D. ;

Barnum, S. H. ;

Barone, F. ;

Barr, B. ;

Barsotti, L. ;

Barsuglia, M. ;

Barton, M. A. ;

Bartos, I. ;

Bassiri, R. ;

Basti, A. ;

Batch, J. .

CLASSICAL AND QUANTUM GRAVITY, 2015, 32 (11)

[2] LIGO: the Laser Interferometer Gravitational-Wave Observatory [J].

Abbott, B. P. ;

Abbott, R. ;

Adhikari, R. ;

Ajith, P. ;

Allen, B. ;

Allen, G. ;

Amin, R. S. ;

Anderson, S. B. ;

Anderson, W. G. ;

Arain, M. A. ;

Araya, M. ;

Armandula, H. ;

Armor, P. ;

Aso, Y. ;

Aston, S. ;

Aufmuth, P. ;

Aulbert, C. ;

Babak, S. ;

Baker, P. ;

Ballmer, S. ;

Barker, C. ;

Barker, D. ;

Barr, B. ;

Barriga, P. ;

Barsotti, L. ;

Barton, M. A. ;

Bartos, I. ;

Bassiri, R. ;

Bastarrika, M. ;

Behnke, B. ;

Benacquista, M. ;

Betzwieser, J. ;

Beyersdorf, P. T. ;

Bilenko, I. A. ;

Billingsley, G. ;

Biswas, R. ;

Black, E. ;

Blackburn, J. K. ;

Blackburn, L. ;

Blair, D. ;

Bland, B. ;

Bodiya, T. P. ;

Bogue, L. ;

Bork, R. ;

Boschi, V. ;

Bose, S. ;

Brady, P. R. ;

Braginsky, V. B. ;

Brau, J. E. ;

Bridges, D. O. .

REPORTS ON PROGRESS IN PHYSICS, 2009, 72 (07)

[3] Status of the Virgo project [J].

Accadia, T. ;

Acernese, F. ;

Antonucci, F. ;

Astone, P. ;

Ballardin, G. ;

Barone, F. ;

Barsuglia, M. ;

Basti, A. ;

Bauer, Th S. ;

Bebronne, M. ;

Beker, M. G. ;

Belletoile, A. ;

Birindelli, S. ;

Bitossi, M. ;

Bizouard, M. A. ;

Blom, M. ;

Bondu, F. ;

Bonelli, L. ;

Bonnand, R. ;

Boschi, V. ;

Bosi, L. ;

Bouhou, B. ;

Braccini, S. ;

Bradaschia, C. ;

Branchesi, M. ;

Briant, T. ;

Brillet, A. ;

Brisson, V. ;

Budzynski, R. ;

Bulik, T. ;

Bulten, H. J. ;

Buskulic, D. ;

Buy, C. ;

Cagnoli, G. ;

Calloni, E. ;

Canuel, B. ;

Carbognani, F. ;

Cavalier, F. ;

Cavalieri, R. ;

Cella, G. ;

Cesarini, E. ;

Chaibi, O. ;

Mottin, E. Chassande ;

Chincarini, A. ;

Cleva, F. ;

Coccia, E. ;

Cohadon, P-F ;

Colacino, C. N. ;

Colas, J. ;

Colla, A. .

CLASSICAL AND QUANTUM GRAVITY, 2011, 28 (11)

[4] Interferometer design of the KAGRA gravitational wave detector [J].

Aso, Yoichi ;

Michimura, Yuta ;

Somiya, Kentaro ;

Ando, Masaki ;

Miyakawa, Osamu ;

Sekiguchi, Takanori ;

Tatsumi, Daisuke ;

Yamamoto, Hiroaki .

PHYSICAL REVIEW D, 2013, 88 (04)

[5]

Braginsky V B, 2008, PHYS LETT A, V293, P228

[6] Nonlinear meter for the gravitational wave antenna [J].

Braginsky, VB ;

Khalily, FY .

PHYSICS LETTERS A, 1996, 218 (3-6) :167-174

[7] Signal recycled laser-interferometer gravitational-wave detectors as optical springs [J].

Buonanno, A ;

Chen, YB .

PHYSICAL REVIEW D, 2002, 65 (04)

[8] An all-optical trap for a gram-scale mirror [J].

Corbitt, Thomas ;

Chen, Yanbei ;

Innerhofer, Edith ;

Mueller-Ebhardt, Helge ;

Ottaway, David ;

Rehbein, Henning ;

Sigg, Daniel ;

Whitcomb, Stanley ;

Wipf, Christopher ;

Mavalvala, Nergis .

PHYSICAL REVIEW LETTERS, 2007, 98 (15)

[9] Measurement of radiation-pressure-induced optomechanical dynamics in a suspended Fabry-Perot cavity [J].

Corbitt, Thomas ;

Ottaway, David ;

Innerhofer, Edith ;

Pelc, Jason ;

Mavalvala, Nergis .

PHYSICAL REVIEW A, 2006, 74 (02)

[10] Sensitivity studies for third-generation gravitational wave observatories [J].

Hild, S. ;

Abernathy, M. ;

Acernese, F. ;

Amaro-Seoane, P. ;

Andersson, N. ;

Arun, K. ;

Barone, F. ;

Barr, B. ;

Barsuglia, M. ;

Beker, M. ;

Beveridge, N. ;

Birindelli, S. ;

Bose, S. ;

Bosi, L. ;

Braccini, S. ;

Bradaschia, C. ;

Bulik, T. ;

Calloni, E. ;

Cella, G. ;

Mottin, E. Chassande ;

Chelkowski, S. ;

Chincarini, A. ;

Clark, J. ;

Coccia, E. ;

Colacino, C. ;

Colas, J. ;

Cumming, A. ;

Cunningham, L. ;

Cuoco, E. ;

Danilishin, S. ;

Danzmann, K. ;

De Salvo, R. ;

Dent, T. ;

De Rosa, R. ;

Di Fiore, L. ;

Di Virgilio, A. ;

Doets, M. ;

Fafone, V. ;

Falferi, P. ;

Flaminio, R. ;

Franc, J. ;

Frasconi, F. ;

Freise, A. ;

Friedrich, D. ;

Fulda, P. ;

Gair, J. ;

Gemme, G. ;

Genin, E. ;

Gennai, A. ;

Giazotto, A. .

CLASSICAL AND QUANTUM GRAVITY, 2011, 28 (09)

← 1 2 3 →