Modern Classical Optics(现代经典光学),作者:(英国)布鲁克(Brooker.G)

《现代经典光学》从现代的视角描述了经典光学，也可称为“半经典光学”。书中内容大都与经典光学相关，包含了相关的现象、仪器和技术，以及一些常见的主题：衍射、干涉、薄膜和全息光学，也涉及了高斯光束．激光腔、cD阅读器和共焦显微镜。涉及少量的量子光学。《现代经典光学》内容丰富、新颖，讲解透彻，各章最后均附有相关习题，书末附有部分习题的解答，可供高年级本科生及低年级研究生参阅，也可作为相关领域研究人员的参考书。 E0'6!9y  
《现代经典光学》作者为牛津大学物理系的Geoffrey Brooker。 vx,6::%]  
《牛津大学研究生教材系列》介绍了物理学的主要领域的知识和柑关应用，旨在引导读者进入相关领域的前沿。丛书坚持深入浅出的写作风格，用丰富的示例、图表、总结加深读者埘内容的理解。书中附有习题供读者练习。 438>)=  

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1 Electromagnetism and basic optics >@\-m  
1.1 Introduction !kYmrj**  
1.2 The Maxwell eqiations ~#xRoB
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1.3 Linear isotropic media FiH!)6T  
1.4 Plane electromagnetic waves g[Y$SgJ  
1.5 Energy flow ZuON@(  
1.6 Scalar wave amplitudes Kn]WXc|("  
1.7 Dispersive media A~t7I{`  
1.8 Electrical transmission lines &Vm[5X
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1.9 Elementary（ray）optics UY^f|f&  
1.9.1 The thin lens Kqjeqr@)  
1.9.2 Sign conventions -M9 4
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1.9.3 Refraction at a spherical surface 9]9(o  
1.9.4 The thick lens |8rJqtf +&  
1.10 Rays and waves 3`I_  
Problems kE|#mI[>  
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2 Fourier series and Fourier transforms 
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2.1 Introduction =ye}IpC*M  
2.2 Fourier series:spectrum of a periodic waveform <>GyG-q  
2.3 Fourier series:a mathematical reshape l\GN
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2.4 The Fourier transform:spectrum of a non-periodic waveform %dQX d]  
2.5 The analytic signal F!<x;h(  
2.6 The Dirac δ-function |0 V
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2.7 Frequency and angular frequency :zoX Xo  
2.8 The power spectrum 1gr jK.x  
2.9 Examples of Fourier transforms *l} 0x@  
2.9.1 A single rectangular pulse 2y,wN"qH*  
2.9.2 The double pulse woKdI)f$  
2.9.3 A δ-function pulse M>j)6?n`_  
2.9.4 A regular array of δ-functions &!Vp'l\9  
2.9.5 A random array of δ-functions t$2{U  
2.9.6 An infinite sinewave 1x)%9u}  
2.10 Convolution and the convolution theorem |^&e\8>.  
2.11 Examples of convoltion lX7^LB  
2.12 Sign choices with Fourier transforms ^m9cEl^:nQ  
problems `XP Tf#9j  
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3 Diffraction 4#uoPkLK  
3.1 Introduction bHNaaif}P  
3.2 Monochromatic spherical wave k[m-"I%ZFX  
3.3 The Kirchhoff diffraction integral R(
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3.4 The Kirchhoff boundary conditions +aap/sYp  
3.5 Simplifying the Kirchhoff inregral \~>#<@h  
3.6 Complementary screens:the Babinet principle "M]]H^r5  
3.7 The Fraunhofer condition I:provisional |Can  
3.8 Fraunhofer diffraction in'one dimension' YVi]f2F%  
3.9 Fraunhofer diffraction in'two dimensions' ,\b5M`<c  
3.10 Two ways of looking at diffraction !k^\`jMzw  
3.11 Examples of Fraunhofer diffraction :csLZqn[  
3.12 Fraunhofer diffraction and Fourier transforms %,BJkNV  
3.13 The Fraunhofer condition Ⅱ:Rayleigh distance and Fresnel number K9iR>put  
3.14 The Fraunhofer condition Ⅲ:object and image 8?!Vr1x  
3.15 The Fresnel case of diffraction W:G*t4i  
3.16 Fraunhofer diffraction and optical resolution #Bjnz$KB  
3.17 Surfaces whose fields are related by a Fourier transform 2vLn#  
3.18 Kirchhoff boundary conditions:a harder look XR(kR{yo  
Problems 5Z'pMkn3  
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4 Diffraction gratings j.sf FS  
4.1 Introduction bVym  
4.2 A basic transmission grating <ZLs+|1  
4.3 The multiple-element pattern Bb6_['y  
4.4 Reflection grating `B~%TEvMh  
4.5 Blazing .W\Fa2}%av  
4.6 Grating spectrometric instruments }N NyUwFa  
4.7 Spectroscopic resolution I`7[0jA~  
4.8 Making gratings P_}$|zj7  
4.9 Tricks of the trade Bs*s8}6  
4.9.1 Normal spectrum \BA_PyS?W+  
4.9.2 Correct illumination .+.Pc_fv  
4.9.3 Shortening exposure times with a spectrograph sE% n=Ww  
4.9.4 Vacuum instruments a[!':-R`s  
4.9.5 Double monochromator ev`p!p  
4.9.6 An inventor's paradise ouujd~b+  
4.10 Beyond the simple theory TX;|g1K  
Problems umciP  
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5 The Fabry-Perot xJ4T7 )*  
5.1 Introduction $%/Zm*H  
5.2 Elementary theory C M(g4fh  
5.3 Basic apparatus ~dv C$  
5.4 The meaning of finesse aDs[\'  
5.5 Free spectral range and resolution 1cPi>?R:  
5.5.1 Free spectral range kC)dia{$  
5.5.2 Resolution ?U&o
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5.6 Analysis of an étalon fringe pattern fYpy5vc-dm  
5.7 Flatness and parallelism of Fabry-Perot plates Q"KH!Bu%P  
5.8 Designing a Fabry-Perot to do a job l ^{]pD  
5.9 Practicalities of spectroscopy using a Fabry-Perot lPjgBp{/  
5.10 The Fabry-Perot as a source of ideas 9.<$&mVk7`  
Problems sf%=q$z  
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6 Thin films -k'=s{iy  
6.1 Introduction :E.mU{  
6.2 Basic calculation for one layer ~*&_zPTN  
6.3 Matrix elimination of'middle'amplitudes 8<xJmcTEwO  
6.4 Reflected and transmitted Waves +K&ze:-Z  
6.5 Impedance concepts #+XKfumLk  
6.6 High-reflectivity mirrors 2e+DUZBoC  
6.7 Anti-reflection coatings _uDtRoI8  
6.8 Interference filters 7:]I@Gc'  
6.9 Practicalities of thin-film deposition `":< ]lj  
Problems n{M!l\1  
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7 Ray matrices and Gaussian beams ~s+\Y/@A  
7.1 Introduction kIQMIL0+  
7.2 Matrix methods in ray optics B<i1UJ5  
7.3 Matrices for translation and refraction GZ9XG">  
7.4 Reflections o)w'w34FCT  
7.5 Spherical waves yQ\c<z^e  
7.6 Gaussian beams g=b'T-  
7.7 Properties of a Gaussian beam VF;%Z  
7.8 Sign conventions ee6Zm+.B  
7.9 Propagation of a Gaussian beam nlh%O@,  
7.10 Electric and magnetic fields Bp9 u6R  
Problems R6!t2gdKe@  
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8 Optical cavities (Ys0|I3  
8.1 Introduction +YXyfTa  
8.2 Gauss-Hermite beams |ML|P\1&V  
8.3 Cavity resonator B\BP:;"  
8.4 Cavity modes .^uNzN~  
8.5 The condition for a low-loss mode @qI
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8.6 Finding the mode shape for a cavity .F |yxj;I7  
8.7 Longitudinal modes tM
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8.8 High-loss cavities
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8.9 The symmetrical confocal cavity 0D=6-P?^W  
8.10 The confocal Fabry-Perot UkeX">  
8.11 Choice of cavity geometry for a laser T2GJoJ!  
8.12 Selection of a desired transverse mode zGA#7W2?0  
8.13 Mode matching iWO16=  
Problems t '* L,  
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9 Coherence:qualitative g\GuH?|  
9.1 Introduction A(ql}cr  
9.2 Terminology R FWJ ZN"  
9.3 Young fringes:tolerance to frequency range Sw%^&*J  
9.4 Young fringes:tolerance to collimation fn;`Vit#  
9.5 Coherence area \\xoOA.  
9.6 The Michelson stellar interferometer ~}+F$&  
9.7 Aperture synthesis VI/77  
9.8 Longitudinal and transverse coherence )$XcO]  
9.9 Interference of two parallel plane waves Gg8F>y<[R  
9.10 Fast and slow detectors b
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9.11 Coherence time and coherence length /c6:B5G  
9.12 A Michelson interferometer investigating longitudinal coherence e+Vn@-L;  
9.13 Fringe visibility Gg$4O
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9.14 Orders of magnitude L3pNna  
9.15 Discussion _ 5nLrn,~  
9.15.1 What of lasers？ M*<Ee]u  
9.15.2 The Young slits:another look  ]?M3X_Mq  
9.15.3 Fast and slow detectors:another look imC>T!-7  
9.15.4 Grating monochromator:another look xim'TVwvC  
9.15.5 Polarized and unpolarized light LR%]4$ /M  
Problems bdbTK8-  
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10 Coherence:correlation functions NU"Ld+gw  
10.1 Introduction |ZC@l^a7  
10.2 Correlation function:definition epXvk
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10.3 Autocorrelation and the Michelson interferometer :"{("!x  
10.4 Normalized autocorrelation function D?A3p6%  
10.5 Fringe visibility ]O]6O%.ao  
10.6 The Wiener-Khintchine theorem wN
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10.7 Fourier transform spectroscopy rrz^LD  
10.8 Partial coherence:transverse [&eG>zF"  
10.9 The van Cittert-Zernike theorem Z}$wvd  
10.10 Intensity correlation yI$KBx/]n  
10.11 Chaotic light and laser light k}18 ~cWM  
10.12 The Hanbury Brown-Twiss experiment /3#)  
10.13 Stellar diameters measured by intensity correlation +7E&IK  
10.14 Classical and quantum optics fkk&pu  
Problems \3q Z0  
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11 Optical practicalities:étendue,interferometry,fringe localization VYG o;  
11.1 Introduction o@2Y98~Q}  
11.2 Energy flow:étendue and radiance #7v=#Jco  
11.3 Conservation of étendue and radiance h\-3Y U  
11.4 Longitudinal and transverse modes zpgRK4p,I"  
11.5 étendue and coherence area efN5(9*9R  
11.6 Field modes and entropy 'nJ,mZx  
11.7 Radianee of some optical sources Yc^;?n`x  
11.7.1 Radiance of a black body CT{mzC8  
11.7.2 Radiance of a gas-discharge lamp A9Kt^HR  
11.7.3 Radiance of a light-emitting diode （LED） 0fE?(0pBj  
11.8 étendue and interferometers Be;l!]i  
11.9 大Etendue and spectrometers yo^M>^P\N  
11.10 A design study:a Fourier-transform spectrometer Jo'~
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11.11 Fringe locahzation 7/e25LS!`U  
Problems tXfXuHa  
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12 Image formation:diffraction theory E\1e8Wyh  
12.1 Introduction FeL!%z  
12.2 Image formation with transversely Coherent illumination informal ,eSII2,r4  
12.3 Image formation:ideal optical system yByxy-~  
12.4 Image formation:imperfect optical system ;.+C  
12.5 Microscope resolution:Abbe theory ,8@q2a/  
12.5.1 Abbe theory:introduction T3bYj|rh=  
12.5.2 Abbe theory:explanation k5gvo  
12.6 Improving the basic microscope d~qZ;uw  
12.7 Phase contrast 6DVHJ+WTV  
12.8 Dark-ground illumination AB+HyZ*//  
12.9 Schlieren HuLvMYF  
12.10 Apodizing c8h71
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12.11 Holography ovk^  
12.12 The point spread function cC pNF `DN  
12.13 Optical transfer function;modulation transfer function "M}3T?0 O  
Problems b Bkg/p]  
13 Holography 
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13.1 Introduction ~P fk   
13.2 Special case:plane-wave obiect beam and plane-wave reference beam d1}cXSQ1T  
13.3 The intensity of the reference beam |-9##0H  
13.4 The response of a photographic emulsion ?>Bt|[p:s)  
13.5 The theory of holography /lLG
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13.6 Formatiol of an image 6 m%/3>q  
13.7 What if we break a hologram in half？ 1VA%xOURh  
13.8 Replay with changed optical geometry L-`?=- 9`  
13.9 The effect of a thick photographic emulsion 8a;;MJ)  
13.10 Phase holograms Ow0(q^H<  
13.11 Gabor's holograms <YAs0  
13.12 Practicalities th|'t}bWV  
13.13 Applications of holography =zW`+++3  
Problems yRWZ/,9x   
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14 Optical fibres x-T7 tr&(  
14.1 Introduction kS62]v]  
14.2 Fibre optics:basics I:UN2`*#  
14.3 Transverse modes , }B
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14.4 Dispersion PNpH)'C|
 
14.4.1 Material dispersion ~p{ fl?  
14.4.2 Intermodal and intramodal dispersion !JQ'~#jKN  
14.5 Multimode fibres GrA}T`]  
14.6 Single-mode fibres <z QUa  
Problems .-:@+=(  
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15 Polarization PEMuIYm$  
15.1 Introduction u vyvy  
15.2 Anisotropic media &4m;9<8\  
15.3 The mathematics of anisotropy & &:ZY4`  
15.4 The understanding of tensorεij \ccCrDz  
15.5 The Faraday effect j34lPo `  
15.6 Optical activity G(hzW%P  
Problems m }\L i]  
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16 Two modern optical devices VrKFpFd  
16.1 Introduction \4|osZ0y  
16.2 Compact disc:description of the disc =k2"1f~e  
16.3 Compact disc:the encoding scheme pAH9  
16.4 Optics of reading a compact disc ^}4ysw  
16.5 Feedback systems nm`}Z'&)  
16.5.1 Correction of tracking J%P{/nR  
16.5.2 Correction of focus L[Y|K%
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16.6 CD-ROM `7Dj}vVu  
16.7 DVD &!?qSi~V  
16.8 The confocal microscope =UV=F/Af^  
16.9 Confocal microscope:resolution GE#LcCa  
16.10 The confocal microscope:depth of focus M(.]?+  
Problems 89fl\18%  
Notes on selected problems IWnyqt(k  
Bibliography ]Czq A c  
Index GI/4<J\  
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