%0 %U http://relativity.livingreviews.org/refdb/record/16687 %A Rowan, S. %A Cagnoli, G. %A Sneddon, P.H. %A Hough, J. %A Route, R. %A Gustafson, E.K. %A Fejer, M.M. %A Mitrofanov, V. %R 10.1016/S0375-9601(99)00874-9 %T Investigation of mechanical loss factors of some candidate materials for the test masses of gravitational wave detectors %V 265 %D 2000 %P 5–11 %J Phys. Lett. A %K Thermal noise %0 %U http://relativity.livingreviews.org/refdb/record/16688 %A Uchiyama, T. %A Tatsumi, D. %A Tomaru, T. %A Tobar, M.E. %A Kuroda, K. %A Suzuki, T. %A Sato, N. %A Yamamoto, A. %A Haruyama, T. %A Shintomi, T. %R 10.1016/S0375-9601(98)00205-9 %T Cryogenic cooling of a sapphire mirror-suspension for interferometric gravitational wave detectors %V 242 %D 1998 %P 211–214 %J Phys. Lett. A %0 %U http://relativity.livingreviews.org/refdb/record/16689 %A Courty, J.-M. %A Heidmann, A. %A Pinard, M. %M 083601 %R 10.1103/PhysRevLett.90.083601 %T Quantum Locking of Mirrors in Interferometers %P 1–4 %V 90 %D 2003 %J Phys. Rev. Lett. %0 %U http://relativity.livingreviews.org/refdb/record/16690 %A D’Ambrosio, E. %M 102004 %R 10.1103/PhysRevD.67.102004 %T Nonspherical mirrors to reduce thermoelastic noise in advanced gravitational wave interferometers %P 1–16 %V 67 %D 2003 %J Phys. Rev. D %K Laser optics %0 %U http://relativity.livingreviews.org/refdb/record/16691 %A Vinet, J.-Y. %R 10.1088/0264-9381/22/7/012 %T Mirror thermal noise in flat-beam cavities for advanced gravitational wave interferometers %V 22 %D 2005 %P 1395–1404 %J Class. Quantum Grav. %0 %U http://relativity.livingreviews.org/refdb/record/16692 %A Mours, B. %A Tournefier, E. %A Vinet, J.-Y. %R 10.1088/0264-9381/23/20/001 %T Thermal noise reduction in interferometric gravitational wave antennas: using high order TEM modes %V 23 %D 2006 %P 5777–5784 %J Class. Quantum Grav. %0 %U http://relativity.livingreviews.org/refdb/record/4828 %A Bondu, F. %A Hello, P. %A Vinet, J.-Y. %R 10.1016/S0375-9601(98)00450-2 %T Thermal noise in mirrors of interferometric gravitational wave antennas %V 246 %D 1998 %P 227–236 %J Phys. Lett. A %K Gravitational wave detectors %K Noise %K Optics %0 %U http://relativity.livingreviews.org/refdb/record/16693 %A Liu, Y.T. %A Thorne, K.S. %M 122002 %R 10.1103/PhysRevD.62.122002 %T Thermoelastic noise and homogeneous thermal noise in finite sized gravitational-wave test masses %P 1–10 %V 62 %D 2000 %J Phys. Rev. D %0 Book %U http://relativity.livingreviews.org/refdb/record/16694 %I Dover %C Mineola, NY %E Abramowitz, M. and Stegun, I.A. %D 1972 %T Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables %K Mathematical methods %0 %U http://relativity.livingreviews.org/refdb/record/16695 %A Hello, P. %A Vinet, J.-Y. %R 10.1051/jphys:0199000510120126700 %T Analytical models of thermal aberrations in massive mirrors heated by high power laser beams %V 51 %D 1990 %P 1267–1282 %J J. Phys. France %K Thermal distortions %0 %U http://relativity.livingreviews.org/refdb/record/16696 %A Hello, P. %A Vinet, J.-Y. %R 10.1051/jphys:0199000510200224300 %T Analytical models of transient thermoelastic deformations of mirrors heated by high power cw laser beams %V 51 %D 1990 %P 2243–2261 %J J. Phys. France %0 %U http://relativity.livingreviews.org/refdb/record/16697 %A Katz, J.I. %R 10.1119/1.18711 %T Temperature Dependence of the Index of Refraction of Fused Silica. Answer to Question #50 %V 65 %D 1997 %P 942–943 %J Am. J. Phys. %0 Book %U http://relativity.livingreviews.org/refdb/record/16698 %A Timoshenko, S. %A Goodier, J.N. %I McGraw-Hill %C New York %7 2nd %D 1951 %T Theory of Elasticity %K Elasticity theory %0 %U http://relativity.livingreviews.org/refdb/record/3109 %A Callen, H.B. %A Welton, T.A. %R 10.1103/PhysRev.83.34 %T Irreversibility and Generalized Noise %V 83 %D 1951 %P 34–40 %J Phys. Rev. %K Statistical mechanics %K Statistical physics %K Fluctuation-dissipation theorem (FDT) %0 %U http://relativity.livingreviews.org/refdb/record/4829 %A Levin, Y. %P 659–663 %R 10.1103/PhysRevD.57.659 %T Internal thermal noise in the LIGO test masses: A direct approach %V 57 %D 1998 %J Phys. Rev. D %K Mirror coatings %0 Book %U http://relativity.livingreviews.org/refdb/record/15395 %A Landau, L.D. %A Lifshitz, E.M. %I Pergamon Press %T Theory of Elasticity %C Oxford; New York %V 7 %7 3rd %D 1986 %K Elasticity %0 %U http://relativity.livingreviews.org/refdb/record/4827 %A Braginsky, V.B. %A Gorodetsky, M.L. %A Vyatchanin, S.P. %R 10.1016/S0375-9601(99)00785-9 %T Thermodynamical fluctuations and photo-thermal shot noise in gravitational wave antennae %V 264 %D 1999 %P 1–10 %J Phys. Lett. A %0 Book Section %U http://relativity.livingreviews.org/refdb/record/128 %A Thorne, K.S. %I Cambridge University Press %T Gravitational radiation %B Three Hundred Years of Gravitation %C Cambridge; New York %E Hawking, S.W. and Israel, W. %D 1987 %P 330–458 %K Gravitational radiation %K Black holes %K Gravitational waves %K Gravitational wave sources %K Gravitational wave data analysis %0 Electronic Source %U http://relativity.livingreviews.org/refdb/record/158 %U http://www.ligo.caltech.edu %I California Institute of Technology %9 project homepage %T LIGO - Laser Interferometer Gravitational Wave Observatory %K Interferometry %K LIGO %K Interferometric gravitational wave detectors %0 Electronic Source %U http://relativity.livingreviews.org/refdb/record/678 %T Virgo %9 project homepage %I European Gravitational Observatory %U https://wwwcascina.virgo.infn.it/ %K no keywords %K VIRGO %0 Electronic Source %U http://relativity.livingreviews.org/refdb/record/16699 %A D’Ambrosio, E. %A O’Shaughnessy, R. %A Strigin, S. %A Thorne, K.S. %A Vyatchanin, S.P. %9 arxiv %D 2004 %T Reducing Thermoelastic Noise in Gravitational-Wave Interferometers by Flattening the Light Beams %0 Electronic Source %U http://relativity.livingreviews.org/refdb/record/16700 %A O’Shaughnessy, R. %A Strigin, S. %A Vyatchanin, S.P. %9 arxiv %D 2004 %T The implications of Mexican-hat mirrors: calculations of thermoelastic noise and interferometer sensitivity to perturbation for the Mexican-hat-mirror proposal for advanced LIGO %0 %U http://relativity.livingreviews.org/refdb/record/16701 %A Savov, P. %A Vyatchanin, S. %M 082002 %R 10.1103/PhysRevD.74.082002 %T Estimate of tilt instability of mesa-beam and Gaussian-beam modes for advanced LIGO %P 1–10 %V 74 %D 2006 %J Phys. Rev. D %0 %U http://relativity.livingreviews.org/refdb/record/16702 %A Bondarescu, B. %A Thorne, K.S. %M 082003 %R 10.1103/PhysRevD.74.082003 %T New family of light beams and mirror shapes for future LIGO interferometers %P 1–6 %V 74 %D 2006 %J Phys. Rev. D %0 %U http://relativity.livingreviews.org/refdb/record/16703 %A Durnin, J. %A Miceli Jr, J.J. %A Eberly, J.H. %R 10.1103/PhysRevLett.58.1499 %T Diffraction-Free Beams %V 58 %D 1987 %P 1499–1501 %J Phys. Rev. Lett. %0 Unpublished Work %U http://relativity.livingreviews.org/refdb/record/16704 %A Bondarescu, M. %A Kogan, O. %A Chen, Y. %A Lundgreen, A. %A Bondarescu, R. %A Tsang, D. %S Joint LSC/VIRGO Meeting, Hanover, Germany, October 22 – 26, 2007 %9 conference paper %D 2007 %T Beams of the Future %0 Book %U http://relativity.livingreviews.org/refdb/record/3762 %A Born, M. %A Wolf, E. %I Cambridge University Press %T Principles of Optics: Electromagnetic Theory of Propagation, Interference and Diffraction of Light %C Cambridge; New York %7 7th exp. %D 2002 %K Optics %K Interference %0 %U http://relativity.livingreviews.org/refdb/record/16705 %A Lück, H. %A Freise, A. %A Goßler, S. %A Hild, S. %A Kawabe, K. %A Danzmann, K. %R 10.1088/0264-9381/21/5/090 %T Thermal correction of the radii of curvature of mirrors for GEO 600 %V 21 %D 2004 %P S985–S989 %J Class. Quantum Grav. %K Thermal noise %K Thermal compensation %0 %U http://relativity.livingreviews.org/refdb/record/16706 %A Lawrence, R. %A Ottaway, D. %A Zucker, M. %A Fritschel, P. %R 10.1364/OL.29.002635 %T Active correction of thermal lensing through external radiative thermal actuation %V 29 %D 2004 %P 2635–2637 %J Opt. Lett. %0 %U http://relativity.livingreviews.org/refdb/record/16707 %A Degallaix, J. %A Zhao, C. %A Ju, L. %A Blair, D.G. %R 10.1007/s00340-003-1261-0 %T Simulation of bulk-absorption thermal lensing in transmissive optics of gravitational waves detectors %V 77 %D 2003 %P 409–414 %J Appl. Phys. B %0 %U http://relativity.livingreviews.org/refdb/record/16708 %A Degallaix, J. %A Zhao, C. %A Ju, L. %A Blair, D.G. %R 10.1088/0264-9381/21/5/079 %T Thermal lensing compensation for AIGO high optical power test facility %V 21 %D 2004 %P S903–S908 %J Class. Quantum Grav. %0 %U http://relativity.livingreviews.org/refdb/record/16709 %A Ju, L. %A Aoun, M. %A Barriga, P. %A Blair, D.G. %A Brooks, A. %A Burman, R. %A Burston, R. %A Chin, X.T. %A Chin, E.J. %A Lee, C.Y. %A Coward, D. %A Cusack, B. %A de Vine, G. %A Degallaix, J. %A Dumas, J.C. %A Garoi, F. %A Gras, S. %A Gray, M. %A Hosken, D.J. %A Howell, E. %A Jacob, J.S. %A Kelly, T.L. %A Lee, B. %A Lee, K.T. %A Lun., T. %A McClelland, D.E. %A Mow-Lowry, C.M. %A Mudge, D. %A Munch, J. %A Schediwy, S. %A Scott, S. %A Searle, A. %A Sheard, B. %A Slagmolen, B.J.J. %A Veitch, P.J. %A Winterflood, J. %A Woolley, A. %A Yan, Z. %A Zhao, C. %R 10.1088/0264-9381/21/5/077 %T ACIGA’s high optical power test facility %V 21 %D 2004 %P S887–S893 %J Class. Quantum Grav. %0 %U http://relativity.livingreviews.org/refdb/record/16710 %A Zhao, C. %A Degallaix, J. %A Ju, L. %A Fan, Y. %A Blair, D.G. %A Slagmolen, B.J.J. %A Gray, M.B. %A Mow Lowry, C.M. %A McClelland, D.E. %A Hosken, D.J. %A Mudge, D. %A Brooks, A. %A Munch, J. %A Veitch, P.J. %A Barton, M.A. %A Billingsley, G. %M 231101 %R 10.1103/PhysRevLett.96.231101 %T Compensation of Strong Thermal Lensing in High-Optical-Power Cavities %V 96 %D 2006 %J Phys. Rev. Lett. %0 Unpublished Work %U http://relativity.livingreviews.org/refdb/record/16711 %A Willems, P. %S Joint LSC/VIRGO Meeting, Baton Rouge, LA, March 19 – 22, 2007 %9 conference paper %D 2007 %T Thermal Compensation in LIGO %0 Personal Communication %U http://relativity.livingreviews.org/refdb/record/16712 %A Di Paulo Emilio, M. %9 personal communication %K no keywords %0 Thesis %U http://relativity.livingreviews.org/refdb/record/16713 %A Hello, P. %9 phd %I Université Paris-Sud %D 1990 %C Orsay %T Modele physique et simulation de l’antenne interferometrique gravitationnelle Virgo %K Optical simulations %0 %U http://relativity.livingreviews.org/refdb/record/16714 %A Harry, G.M. %A Gretarsson, A.M. %A Saulson, P.R. %A Kittelberger, S.E. %A Penn, S.D. %A Startin, W.J. %A Rowan, S. %A Fejer, M.M. %A Crooks, D.R.M. %A Cagnoli, G. %A Hough, J. %A Nakagawa, N. %R 10.1088/0264-9381/19/5/305 %T Thermal noise in interferometric gravitational wave detectors due to dielectric optical coatings %V 19 %D 2002 %P 897–917 %J Class. Quantum Grav. %K Mirror coatings %0 Thesis %U http://relativity.livingreviews.org/refdb/record/16715 %A Agresti, J. %I University of Pisa %9 phd %C Pisa %D 2007 %T Researches on Non-standard Optics for Advanced Gravitational Waves Interferometers %0 %U http://relativity.livingreviews.org/refdb/record/16716 %A Somiya, K. %A Yamamoto, K. %M 102004 %D 2009 %R 10.1103/PhysRevD.79.102004 %T Coating thermal noise of a finite-size cylindrical mirror %V 79 %J Phys. Rev. D %0 %U http://relativity.livingreviews.org/refdb/record/16717 %A Nakagawa, N. %A Gretarsson, A.M. %A Gustafson, E.K. %A Fejer, M.M.F. %M 102001 %R 10.1103/PhysRevD.65.102001 %T Thermal noise in half-infinite mirrors with nonuniform loss: A slab of excess loss in a half-infinite mirror %V 65 %D 2002 %J Phys. Rev. D %K Mechanical loss %0 %U http://relativity.livingreviews.org/refdb/record/16718 %A Lovelace, G. %R 10.1088/0264-9381/24/17/014 %T The dependence of test-mass thermal noises on beam shape in gravitational-wave interferometers %V 24 %D 2007 %P 4491–4512 %J Class. Quantum Grav. %0 %U http://relativity.livingreviews.org/refdb/record/16719 %A Fejer, M.M. %A Rowan, S. %A Cagnoli, G. %A Crooks, D.R.M. %A Gretarsson, A.M. %A Harry, G.M. %A Hough, J. %A Penn, S.D. %A Sneddon, P.H. %A Vyatchanin, S.P. %M 082003 %R 10.1103/PhysRevD.70.082003 %T Thermoelastic dissipation in inhomogeneous media: loss measurements and displacement noise in coated test masses for interferometric gravitational wave detectors %V 70 %D 2004 %J Phys. Rev. D %0 %U http://relativity.livingreviews.org/refdb/record/16720 %A Braginsky, V.B. %A Vyatchanin, S.P. %R 10.1016/S0375-9601(03)00473-0 %T Thermodynamical fluctuations in optical mirror coatings %V 312 %D 2003 %P 244–255 %J Phys. Lett. A