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Chapter 1. A Review of Elementary Optics CYl�Z<�W'
1.1 Light ��5G-�)>��
1.2 Laws of Geometrical Optics �GWP;;�x%
1.3 Mirrors and Lenses-Ray Sketching WPbWG��$Li
1.4 Mirrors and Lenses-Calculations n-� cEa/g
1.5 Simple Optical Instruments �i^hgs`hvU
1.6 Polarization \g|u|Y�.2[
1.7 Interference and Diffraction 8'c_&\kd�v
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Chapter 2. Thin Lens Ray Tracing ��|cZKj|0>
2.1 Getting Started {-�X8M�isI
2.2 Tracing Rays through a Series of Lenses "f'pa&oH�i
2.3 The y-u Trace [��T�v!P�c
2.4 Stops, Pupils, and Windows �3PS�(���1
2.5 Evaluation of Systems Using the y-u Trace ~c8Z9[Q��W
2.6 Effective Focal Length Rx�e�
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2.7 Cylindrical Lenses i7^_�y�3dG
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Chapter 3. Radiometry j\t"4=��,n
3.1 Basic Concepts and Terms \W�73W_P&g
3.2 Radiometry in an Optical System �pfCNFF�*"
3.3 Radiometry of Extended Sources �dL9QYI�fP
3.4 Applications gwFHp�.mE�
3.5 Photometry and Spectrophotometry �h#p1�wK;N
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Chapter 4. Mirrors and Prisms �F[c�a4_lK
CONTENTS �_SS6�@`�X
4.1 Mirror Images >�ic�K]W �
4.2 Plane Mirrors 4%5H�<:V7�
4.3 Prisms �\�]A�s�L&
4.4 Fitting It In or Spreading It Out qG��S]2KY�
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Chapter 5. Paraxial Ray Tracing ^%|(dMo4��
5.1 The y-nu Trace �E3N4(V\�*
5.2 The Gaussian Constants ���4v#�3UG
5.3 Chromatic Aberration v�5i?4?-Z
5.4 Paraxial Ray Tracing, Calculators, and Computers *.ffyB�I*~
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Chapter 6. Exact Ray Traces VN�=S&iBa/
6.1 Ray Tracing Techniques Y4P�U~���l
6.2 Aberrations #v�N��\�]e
6.3 Correcting Aberrations h[c�
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6.4 Optical Computation ;� *G[3k�k
6.5 Image Evaluation �kTQ`$V(>&
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Chapter 7. Gaussian Beams q�cxq-HS2'
7.1 �a.F�6!?�
7.2 Modifying a Gaussian Beam 7QiJ��1P.z
7.3 Conjugate Distances ��1KxtHLLU
7.4 Laser Beam Illumination �6�"�Tr$E�
7.5 Higher Order Modes ?k4�O�)?28
Characteristics of a Gaussian Beam 5utMZ>%w_#
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Chapter 8. Modulation and Scanning B^(�0>D�a\
8.1 Modulation of Light 45�`��G��v
8.2 Scanning l7� D�/�]&
8.3 Mechanical Scanners tYt/m6h���
8.4 Acousto-optical Scanners tR#uDE\w�R
8.5 Holographic Scanners VHsN�z �WI
8.6 Additional Topics Y�W"?F��y�
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Chapter 9. Spectrometers �L��QYT�/�
9.1 Filter Spectrometers Fs:l"5~>�1
9.2 Prism Spectrometers �RB'�12^�[
9.3 Grating Spectrometers P�y 8o8*�H
9.4 Spectrometer Systems di�6A.�N5A
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Chapter 10. Detectors >*A\/Da]�j
10.1 The Eye-The Ultimate Detector �r�8C6bFYM
10.2 Thermal Detectors �DSix(�bs9
10.3 Photographic Materials 1p,G�8�v+B
10.4 Photoemissive Detectors R��{.wA�H(
10.5 Semiconductor Detectors DC`6g��#*<
10.6 Photodiode Arrays lfR�"��22t
10.7 Detector Geometries nM8aC&Rd\�
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Chapter 11. The Design Process >fo &H_�a�
1 1.1 Setting Down Objectives ^�sH1YE}�0
11.2 Preliminary Design {Z;W�|w1�t
11.3 The Breadboarding Process b�]6�;:Q!d
11.4 Case Study-Laser Printer Design hmk�cW�r`
11.5 Case Study-Slide Projector Design �#U�U��}lG
1 1.6 Conclusions
