Optical Metrology Third Edition fn1 ?�Qp| 8W1�9#?7>B Kjell J. G˚asvik
\K��u9"�x Spectra Vision AS, Trondheim, Norway
A Ob��y*�c 
M3��D�xapG �3C>�2x(]M Preface to the Third Edition xi
5u'Tm�LuKT 1Basics 1
��@/CRIei� 1.1 Introduction 1
fQ=&@ �>e 1.2 Wave Motion. The Electromagnetic Spectrum 1
��XD;�15a� 1.3 The Plane Wave. Light Rays 3
l�AdOC5+JX 1.4 Phase Difference 4
c�EDDO�&�u 1.5 Complex Notation. Complex Amplitude 5
�@J~��lV�\ 1.6 Oblique Incidence of A Plane Wave 5
EO4�"�Z@ji 1.7 The Spherical Wave 7
Z�_iAn TT� 1.8 The Intensity 8
:�Sp�G&\+� 1.9 Geometrical Optics 8
*]���{9��K 1.10 The Simple Convex (Positive) Lens 10
��&,W_#l�{ 1.11 A Plane-Wave Set-Up 11
�"\�V�W.�S 2 Gaussian Optics 15
}ZEfT��] 2.1 Introduction 15
4q�\.I�+r^ 2.2 Refraction at a Spherical Surface 15
LVPt*S=��/ 2.2.1 Examples 19
�,H.(\p_N 2.3 The General Image-Forming System 19
Ybs�=W<��- 2.4 The Image-Formation Process 21
1_Dn?�G^�H 2.5 Reflection at a Spherical Surface 23
���.yctE:n 2.6 Aspheric Lenses 25
}4b�B7,��j 2.7 Stops and Apertures 26
LP5eF�l`|T 2.8 Lens Aberrations. Computer Lens Design 28
�>u��BV��� 2.9 Imaging and The Lens Formula 29
?;0�n��Jf� 2.10 Standard Optical Systems 30
t�x:rj6�-z 2.10.1 Afocal Systems. The Telescope 30
R��z<d%C;R 2.10.2 The Simple Magnifier 32
�N&0�uXrw 2.10.3 The Microscope 34
jOoIF/�S�o 3 Interference 37
,�om�p F$% 3.1 Introduction 37
��g5kYy�E 3.2 General Description 37
MZUF��! B
3.3 Coherence 38
d8Q_�6(Ar| 3.4 Interference between two Plane Waves 41
$\��YLm�G� 3.4.1 Laser Doppler Velocimetry (LDV) 45
;4-p�upK~% 3.5 Interference between other Waves 46
AmT|�%j&3� 3.6 Interferometry 49
33#7U+~]@� 3.6.1 Wavefront Division 50
�Ft%�TnEp� 3.6.2 Amplitude Division 51
}S�~ysQw�T 3.6.3 The Dual-Frequency Michelson Interferometer 54
�p|bc�=`TD 3.6.4 Heterodyne (Homodyne) Detection 55
S�b:z�N'U� 3.7 Spatial and Temporal Coherence 56
.L�Xh]I��* 3.8 Optical Coherence Tomography 61
��b'�Fx),� 4 Diffraction 67
r�85Xa'hh� 4.1 Introduction 67
jV,(P$ 5;� 4.2 Diffraction from a Single Slit 67
[a>JG8[�,t 4.3 Diffraction from a Grating 70
�a@5x�z��) 4.3.1 The Grating Equation. Amplitude Transmittance 70
8!o{W=m�^4 4.3.2 The Spatial Frequency Spectrum 73
>��D`fp��� 4.4 Fourier Optics 75
U}�RS�*7`� 4.5 Optical Filtering 76
��WuP([8� 4.5.1 Practical Filtering Set-Ups 78
�e'����/�� 4.6 Physical Optics Description
0@sr�
Nu�W of Image Formation 81
/�XWPN(JC? 4.6.1 The Coherent Transfer Function 83
�?l\gh�1{C 4.6.2 The Incoherent Transfer Function 85
a`�EGx{q(� 4.6.3 The Depth of Focus 88
�LH�3N}J({ 4.7 The Phase-Modulated Sinusoidal Grating 89
?�RR�Srr�1 5 Light Sources and Detectors 99
�j,�|1�y5f 5.1 Introduction 99
i�n=k:j,U0 5.2 Radiometry. Photometry 99
E�&iWtwk�z 5.2.1 Lambertian Surface 102
(PsS�E:r}+ 5.2.2 Blackbody Radiator 103
RS�||KA])J 5.2.3 Examples 105
SCfkv|h�O� 5.3 Incoherent Light Sources 108
#FQm/Q<0�� 5.4 Coherent Light Sources 109
s{"`=d�KT� 5.4.1 Stimulated Emission 109
�fcE/��� 5.4.2 Gas Lasers 112
6y��u*a�_� 5.4.3 Liquid Lasers 114
P�x�P�?�hk 5.4.4 Semiconductor Diode Lasers. Light Emitting Diodes 114
#c��z�yr@� 5.4.5 Solid-State Lasers 117
pU�:C�=hq4 5.4.6 Other Lasers 119
X5L(_0?F�1 .
7�/^�TwNsv .
�0XQ"�.:+h .
