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Chapter 1. A Review of Elementary Optics "PK\;#[W|
1.1 Light h$.���y�)v
1.2 Laws of Geometrical Optics [�� R1�S+i
1.3 Mirrors and Lenses-Ray Sketching -Zc
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1.4 Mirrors and Lenses-Calculations iD+Q�\l;%�
1.5 Simple Optical Instruments ���F#>?i�}
1.6 Polarization �0(\y�bppx
1.7 Interference and Diffraction �g
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Chapter 2. Thin Lens Ray Tracing (�yIl�]ZN*
2.1 Getting Started fYU�/Jn�#�
2.2 Tracing Rays through a Series of Lenses 4^vEMq�8lB
2.3 The y-u Trace (oO*|\�9�u
2.4 Stops, Pupils, and Windows |3�`Sd;^;�
2.5 Evaluation of Systems Using the y-u Trace �Fw? ;Y%��
2.6 Effective Focal Length j�H#�T�t;�
2.7 Cylindrical Lenses �[u�\�E*8�
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Chapter 3. Radiometry �d~@&*��1}
3.1 Basic Concepts and Terms &m2FEQ�Lj
3.2 Radiometry in an Optical System MT9c:7}�[&
3.3 Radiometry of Extended Sources EEFM1asJf�
3.4 Applications ���t�:NTk(
3.5 Photometry and Spectrophotometry gp'9Pf�;\[
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Chapter 4. Mirrors and Prisms ��"Opk:;.�
CONTENTS x
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4.1 Mirror Images LN}�e�D�\
4.2 Plane Mirrors Sn=�|Q�4ZN
4.3 Prisms �"\M16N��
4.4 Fitting It In or Spreading It Out b��E:oF9J?
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Chapter 5. Paraxial Ray Tracing COPH)Bd�q.
5.1 The y-nu Trace ,5^XjU3c�=
5.2 The Gaussian Constants ����A8 V7\
5.3 Chromatic Aberration D#��|�+PG7
5.4 Paraxial Ray Tracing, Calculators, and Computers 1�sx�@Nvlb
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Chapter 6. Exact Ray Traces KPO?eeT.WZ
6.1 Ray Tracing Techniques .�U|irD��O
6.2 Aberrations Wm>[5�h%�>
6.3 Correcting Aberrations <�?U�bzT7X
6.4 Optical Computation "`]�G>,r_�
6.5 Image Evaluation ��'F>eieO�
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Chapter 7. Gaussian Beams 5ZeE& vG�2
7.1 Ojqb�j0E�9
7.2 Modifying a Gaussian Beam 8�OE=7��PK
7.3 Conjugate Distances N>�q�Oiw�[
7.4 Laser Beam Illumination 8q�9HQ4dsL
7.5 Higher Order Modes ~ED8]�*H|`
Characteristics of a Gaussian Beam �.%)�FK#s-
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Chapter 8. Modulation and Scanning �Y��+5�nn�
8.1 Modulation of Light `�k�b��]tf
8.2 Scanning \�H��X'^t`
8.3 Mechanical Scanners qW*JB4`?�a
8.4 Acousto-optical Scanners �x�Vk|6vA7
8.5 Holographic Scanners $D{�KX�krd
8.6 Additional Topics 1OB,UU�"S$
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Chapter 9. Spectrometers !$��&k@#v:
9.1 Filter Spectrometers �
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9.2 Prism Spectrometers gz��fs�9�e
9.3 Grating Spectrometers xCU^4D�O3p
9.4 Spectrometer Systems ZC}�'! $r7
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Chapter 10. Detectors lb����M)U
10.1 The Eye-The Ultimate Detector x�\taG.'zX
10.2 Thermal Detectors $:I�Oo�S|e
10.3 Photographic Materials ^Ud�1 ag!-
10.4 Photoemissive Detectors `o~�dQb/k+
10.5 Semiconductor Detectors %Jy�0?W�N�
10.6 Photodiode Arrays Q72}�V9I9�
10.7 Detector Geometries �����o�5=1
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Chapter 11. The Design Process {
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1 1.1 Setting Down Objectives >�Y�P6/w,e
11.2 Preliminary Design H�y4c{��Ij
11.3 The Breadboarding Process �b=nQi./f
11.4 Case Study-Laser Printer Design 6mcxp�+lm|
11.5 Case Study-Slide Projector Design �1k-Y�eQNe
1 1.6 Conclusions
