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Ïðîàíàëèçèðîâàíû ðàçëè÷íûå ðåæèìû ðàáîòû ýëåêòðîîïòè÷åñêîãî ìîäóëÿòîðà íà èõ îñíîâå è ïîêàçàíà âîçìîæíîñòü óëó÷øåíèÿ âçàèìîäåéñòâèÿ çà ñ÷¼ò ïðèìåíåíèÿ ðåçîíàòîðîâ ñïåöèàëüíîé ôîðìû.5. Ðàçðàáîòàí ÷èñëåííûé ìåòîä ðàñ÷¼òà âíóòðåííèõ òåïëîâûõ øóìîâ ìèêðîðåçîíàòîðîâ ñìîäàìè øåï÷óùåé ãàëåðåè. Ïîêàçàíà íåîáõîäèìîñòü ó÷¼òà îòêðûòîñòè ñèñòåìû íà íèçêèõ ÷àñòîòàõ ïðè ðàñ÷¼òå òåðìîðåôðàêòèâíîãî è òåðìîóïðóãîãî øóìîâ.
Äàí ìåòîä òåîðåòè÷åñêîé îöåíêè ÷óâñòâèòåëüíîñòè ìîäóëÿòîðà è ïîêàçàíî îïðåäåëÿþùåå äåéñòâèåýëåêòðè÷åñêèõ øóìîâ ÑÂ× ÷àñòè óñòðîéñòâà.18Ñïèñîê îïóáëèêîâàííûõ ñòàòåéA1. Pavlov N. G., Kondratyev N. M., Gorodetsky M. L. Modeling the whispering gallerymicroresonator-based optical modulator // Appl. Opt.2015.Vol. 54, No. 35.P. 1046010466.A2. Kondratiev N. M., Braginsky V. B., Vyatchanin S.
P., Gorodetsky M. L. Spontaneous crystallization noise in mirrors of gravitational wave detectors // Phys. Rev. D. 2015. Vol. 92.P. 041101.A3. Herr T., Brasch V., ... Kondratiev N,... et al. Temporal solitons in optical microresonators //Nature Photonics. 2014. Vol. 8, No. 2. P. 145152.A4. Kondratiev N. M., Gurkovsky A. G., Gorodetsky M. L. Thermal noise and coating optimization in multilayer dielectric mirrors // Phys. Rev.
D. 2011. Vol. 84. P. 022001.A5. Êîíäðàòüåâ Í. Ì., Ãîðîäåöêèé Ì. Ë. Ýëåêòðîîïòè÷åñêîå âçàèìîäåéñòâèå â ðåçîíàòîðàõñ ìîäàìè øåï÷óùåé ãàëåðåè è èõ ïðèëîæåíèå â ÑÂ×-ðåçîíàòîðàõ // Èçâåñòèÿ ÐÀÍ.Ñåðèÿ ôèçè÷åñêàÿ. 2013. Ò. 77, 12. Ñ. 17401743.A6. Êîíäðàòüåâ Í. Ì., Ãîðîäåöêèé Ì. Ë. ÑÂ× ïðèåìíèêè è ìîäóëÿòîðû íà îñíîâå ðåçîíàòîðîâ ñ ìîäàìè øåï÷óùåé ãàëåðåè // Ó×ÅÍÛÅ ÇÀÏÈÑÊÈ ÔÈÇÈ×ÅÑÊÎÃÎ ÔÀÊÓËÜÒÅÒÀ ÌÎÑÊÎÂÑÊÎÃÎ ÓÍÈÂÅÐÑÈÒÅÒÀ. 2013.
Ò. 5, 7. Ñ. 5659.A7. Êîíäðàòüåâ Í. Ì., Ãîðîäåöêèé Ì. Ë. Ýëåêòðîîïòè÷åñêîå âçàèìîäåéñòâèå â ðåçîíàòîðàõñ ìîäàìè øåï÷óùåé ãàëåðåè è ÑÂ× ìîäóëÿòîðû íà åãî îñíîâå // Æóðíàë ðàäèîýëåêòðîíèêè (ýëåêòðîííûé æóðíàë). 2012. 11.Ëèòåðàòóðà1.B. P. Abbott et. al. LIGO: the Laser Interferometer Gravitational-Wave Observatory // Reports on Progress in Physics. 2009.
Vol. 72, No. 7. P. 076901.2.Harry G. M., The LIGO Scientic Collaboration. Advanced LIGO: the next generation of gravitational wave detectors // Classical and Quantum Gravity. 2010. Vol. 27, No. 8. P. 084006.3.The LIGO Scientic Collaboration, Aasi J., et.al. B. P. A.
Advanced LIGO // Classical andQuantum Gravity. 2015. Vol. 32, No. 7. P. 074001.194.Gorodetsky M. L. Thermal noises and noise compensation in high-reection multilayer coating // Physics Letters A. 2008. Vol. 372, No. 46. P. 6813 6822.5.Ãîðîäåöêèé,Ì.Ë.Îïòè÷åñêèåìèêðîðåçîíàòîðûñãèãàíòñêîéäîáðîòíîñòüþ.Ôóíäàìåíòàëüíàÿ è ïðèêëàäíàÿ ôèçèêà. Ôèçìàòëèò. 2011.
ISBN: 9785922112833.6.Ilchenko V. S., Yao X. S., Maleki L., Lute Y. Microsphere Integration in Active and PassivePhotonics Devices // Proc. SPIE. 2000. Vol. 3930.7.Ilchenko V. S., Maleki L. Novel whispering-gallery resonators for lasers, modulators, andsensors // Proc. SPIE. 2001. Vol.
4270. P. 120130.8.Herr T., Hartinger K., Riemensberger J. et al. Universal formation dynamics and noise ofKerr-frequency combs in microresonators // Nature Photonics. 2012. Vol. 6, No. 7. P. 480487.9.Braginsky V., Gorodetsky M., Vyatchanin S. Thermodynamical uctuations and photothermal shot noise in gravitational wave antennae // Physics Letters A.1999.Vol. 264,No. 1. P. 1 10.10.
Braginsky V., Vyatchanin S. Thermodynamical uctuations in optical mirror coatings //Physics Letters A. 2003. Vol. 312, No. 34. P. 244 255.11. Braginsky V., Gorodetsky M., Vyatchanin S. Thermo-refractive noise in gravitational waveantennae // Physics Letters A. 2000. Vol. 271, No. 56. P. 303 307.12.
Salleo A., Taylor S. T., Martin M. C. et al. Laser-driven formation of a high-pressure phasein amorphous silica // Nature materials. 2003. Vol. 2, No. 12. P. 796800.13. Grujicic M., Snipes J., Ramaswami S. et al. Densication and Devitrication of Fused SilicaInduced by Ballistic Impact: A Computational Investigation // Journal of Nanomaterials.2015. Vol. 2015, No.
Article ID 650625. P. 14.14. Berthold J. W., Jacobs S. F., Norton M. A. Dimensional Stability of Fused Silica, Invar, andSeveral Ultra-low Thermal Expansion Materials // Metrologia. 1977. Vol. 13, No. 1. P. 9.15. Riehle F. Use of optical frequency standards for measurements of dimensional stability //Measurement Science and Technology. 1998. Vol.
9, No. 7. P. 1042.16. Takahashi A. Long-term dimensional stability and longitudinal uniformity of line scales madeof glass ceramics // Measurement Science and Technology. 2010. Vol. 21, No. 10. P. 105301.2017. Levin Y. Creep events and creep noise in gravitational-wave interferometers: Basic formalismand stationary limit // Phys.
Rev. D. 2012. Vol. 86. P. 122004.18. Vannoni M., Sordini A., Molesini G. Fused silica long-term stability: case studies // Proc.SPIE. 2011. Vol. 8169. P. 8169068169066.19. Braginsky V., Gorodetsky M., Ilchenko V. Quality-factor and nonlinear properties of opticalwhispering-gallery modes // Physics Letters A. 1989. Vol. 137, No. 78.
P. 393 397.20. Cohen D., Hossein-Zadeh M., Levi A. Microphotonic modulator for microwave receiver //Electronics Letters. 2001. Vol. 37. P. 300301(1).21. Ayazi A., Hsu R. C. J., Houshmand B. et al. All-dielectric photonic-assisted wireless receiver //Opt. Express. 2008.
Vol. 16, No. 3. P. 17421747.22. Matsko A. B., Maleki L., Savchenkov A. A., Ilchenko V. S. Whispering gallery mode basedoptoelectronic microwave oscillator // Journal of Modern Optics. 2003. Vol. 50, No. 15-17.P. 25232542.23. Savchenkov A. A., Matsko A. B., Ilchenko V. S., Maleki L. Optical resonators with ten millionnesse // Opt. Express. 2007. Vol. 15, No. 11. P.
67686773.24. Savchenkov A., Matkso A., Iltchenko V., Maleki L. Method of fabricating a whispering gallerymode resonator. 2011. US Patent 8,057,283.25. Levin Y. Internal thermal noise in the LIGO test masses: A direct approach // Phys. Rev. D.1998. Vol. 57. P. 659663.26. Levin Y.
Fluctuationdissipation theorem for thermo-refractive noise // Physics Letters A.2008. Vol. 372, No. 12. P. 1941 1944.21.
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