Optical Metrology Third Edition Z"u|�-RoBV H{����4/~Z Kjell J. G˚asvik
G�1�`H
H&� Spectra Vision AS, Trondheim, Norway
(�8?5�RE�z 
(qky&}��H ~l@-g�A�yw Preface to the Third Edition xi
5(�}Q�g9�% 1Basics 1
Wt�8�=�j1> 1.1 Introduction 1
iI.d8�}A�� 1.2 Wave Motion. The Electromagnetic Spectrum 1
zV<�vwIUrr 1.3 The Plane Wave. Light Rays 3
b#2�$Pd�:( 1.4 Phase Difference 4
Ov5�*�&*�P 1.5 Complex Notation. Complex Amplitude 5
�0u7\*I��y 1.6 Oblique Incidence of A Plane Wave 5
nO�E 1bf^l 1.7 The Spherical Wave 7
hV6�=-QL*B 1.8 The Intensity 8
T��M1D|�H 1.9 Geometrical Optics 8
^^m3
11�= 1.10 The Simple Convex (Positive) Lens 10
�m�EM/}]2 1.11 A Plane-Wave Set-Up 11
M^$liS.D�� 2 Gaussian Optics 15
f|&ga'5g&� 2.1 Introduction 15
-J�j"��JN. 2.2 Refraction at a Spherical Surface 15
,��aLdW,<6 2.2.1 Examples 19
(H*d">`m�z 2.3 The General Image-Forming System 19
#FH�yP1uyc 2.4 The Image-Formation Process 21
oB8x_0#n�� 2.5 Reflection at a Spherical Surface 23
[61�T$�.� 2.6 Aspheric Lenses 25
�\a|�bx4M� 2.7 Stops and Apertures 26
�>����dTJ 2.8 Lens Aberrations. Computer Lens Design 28
nLf�ITr|�5 2.9 Imaging and The Lens Formula 29
��xqA�XfJ. 2.10 Standard Optical Systems 30
J% �t[��{� 2.10.1 Afocal Systems. The Telescope 30
�N+[� |"v� 2.10.2 The Simple Magnifier 32
o�3oA�k10
2.10.3 The Microscope 34
�L�9F�ijF7 3 Interference 37
��)&�$Zt( 3.1 Introduction 37
tH�j� |_�t 3.2 General Description 37
&�d8z`amP� 3.3 Coherence 38
�@}^eyS$|! 3.4 Interference between two Plane Waves 41
2\:�z
���� 3.4.1 Laser Doppler Velocimetry (LDV) 45
*YI��>Q@F9 3.5 Interference between other Waves 46
3�X,S�C��G 3.6 Interferometry 49
OG�j�eE4�� 3.6.1 Wavefront Division 50
�<f'2dT@6� 3.6.2 Amplitude Division 51
��NP�� {�O 3.6.3 The Dual-Frequency Michelson Interferometer 54
0�q�V"R7TW 3.6.4 Heterodyne (Homodyne) Detection 55
).�Ei:�/*j 3.7 Spatial and Temporal Coherence 56
b�[MdA|C%j 3.8 Optical Coherence Tomography 61
�2EdKxw3$] 4 Diffraction 67
J:�c]z9&! 4.1 Introduction 67
&>Ko}?���w 4.2 Diffraction from a Single Slit 67
l*yh(�3�~} 4.3 Diffraction from a Grating 70
N]k�(�8K� 4.3.1 The Grating Equation. Amplitude Transmittance 70
SuH��v{u45 4.3.2 The Spatial Frequency Spectrum 73
H(1(�H0Kj" 4.4 Fourier Optics 75
�;��goR0PN 4.5 Optical Filtering 76
�zJp@\Y�o+ 4.5.1 Practical Filtering Set-Ups 78
eq�L~h1^Co 4.6 Physical Optics Description
77��Fpb?0` of Image Formation 81
\�G�}$�+�� 4.6.1 The Coherent Transfer Function 83
l^F%fI�Rp) 4.6.2 The Incoherent Transfer Function 85
@�"`{gdB$ 4.6.3 The Depth of Focus 88
�LQnkpy3A 4.7 The Phase-Modulated Sinusoidal Grating 89
^rKA�=s�iz 5 Light Sources and Detectors 99
R`�R�Lq1WA 5.1 Introduction 99
�B� f_o�Ic 5.2 Radiometry. Photometry 99
nA\9UD�<G. 5.2.1 Lambertian Surface 102
LE|*Je3a�� 5.2.2 Blackbody Radiator 103
u
�I \�zDR 5.2.3 Examples 105
�;�,8bb(j� 5.3 Incoherent Light Sources 108
#0hX'8];( 5.4 Coherent Light Sources 109
B~/���LAD_ 5.4.1 Stimulated Emission 109
�w�w]^H$In 5.4.2 Gas Lasers 112
r*'X�]q|L+ 5.4.3 Liquid Lasers 114
C�XQ�Pbt[5 5.4.4 Semiconductor Diode Lasers. Light Emitting Diodes 114
�w
�:w��� 5.4.5 Solid-State Lasers 117
>tq,F"2amC 5.4.6 Other Lasers 119
M#��sDP��T .
o*_����O1P .
�}^Un�x �W .
