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181   $ctxt$2rdacontent
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200 00$aOptical coatings and thermal noise in precision measurement /$fedited by Gregory Harry, Timothy P. Bodiya and Riccardo DeSalvo$b[electronic resource]
210  1$aCambridge :$cCambridge University Press,$d2012.
215   $a1 online resource (xiv, 328 pages) $cdigital, PDF file(s)
300   $aTitle from publisher's bibliographic system (viewed on 05 Oct 2015).
311   $a1-107-00338-5 
320   $aIncludes bibliographical references.
327   $aMachine generated contents note: 1. Theory of thermal noise in optical mirrors Y. Levin; 2. Coating technology S. Chao; 3. Compendium of thermal noises in optical mirrors V.B. Braginsky, M.L. Gorodetsky and S.P. Vyatchanin; 4. Coating thermal noise I. Martin and S. Reid; 5. Direct measurements of coating thermal noise K. Numata; 6. Methods of improving thermal noise S. Ballmer and K. Somiya; 7. Substrate thermal noise S. Rowan and I. Martin; 8. Cryogenics K. Numata and K. Yamamoto; 9. Thermo-optic noise M. Evans and G. Ogin; 10. Absorption and thermal issues P. Willems, D. Ottaway and P. Beyersdorf; 11. Optical scatter J.R. Smith and M.E. Zucker; 12. Reflectivity and thickness optimisation I.M. Pinto, M. Principe and R. DeSalvo; 13. Beam shaping A. Freise; 14. Gravitational wave detection D. Ottaway and S.D. Penn; 15. High-precision laser stabilisation via optical cavities M.J. Martin and J. Ye; 16. Quantum optomechanics G.D. Cole and M. Aspelmeyer; 17. Cavity quantum electrodynamics T.E. Northup.
330   $aThermal noise from optical coatings is a growing area of concern and overcoming limits to the sensitivity of high precision measurements by thermal noise is one of the greatest challenges faced by experimental physicists. In this timely book, internationally renowned scientists and engineers examine our current theoretical and experimental understanding. Beginning with the theory of thermal noise in mirrors and substrates, subsequent chapters discuss the technology of depositing coatings and state-of-the-art dielectric coating techniques used in precision measurement. Applications and remedies for noise reduction are also covered. Individual chapters are dedicated to specific fields where coating thermal noise is a particular concern, including the areas of quantum optics/optomechanics, gravitational wave detection, precision timing, high-precision laser stabilisation via optical cavities and cavity quantum electrodynamics. While providing full mathematical detail, the text avoids field-specific jargon, making it a valuable resource for readers with varied backgrounds in modern optics.
517 3 $aOptical Coatings & Thermal Noise in Precision Measurement
606   $aOptical coatings
606   $aQuantum optics
606   $aLight$xScattering
606   $aElectromagnetic waves$xScattering
615  0$aOptical coatings.
615  0$aQuantum optics.
615  0$aLight$xScattering.
615  0$aElectromagnetic waves$xScattering.
676   $a621.36
686   $aSCI053000$2bisacsh
702   $aHarry$b Gregory M.$f1967-
702   $aBodiya$b Timothy P.
702   $aDeSalvo$b Riccardo
801  0$bUkCbUP
801  1$bUkCbUP
906   $aBOOK
912   $a9910790471003321
996   $aOptical coatings and thermal noise in precision measurement$93811891
997   $aUNINA