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Chapter 1. A Review of Elementary Optics 2�S8;=x}/�
1.1 Light �}B0[S_m�w
1.2 Laws of Geometrical Optics +X�WT�u�!
1.3 Mirrors and Lenses-Ray Sketching %]P{)*y-?
1.4 Mirrors and Lenses-Calculations �a%%�7Ew ?
1.5 Simple Optical Instruments ;[�y(� 14g
1.6 Polarization �rJiF�2�W�
1.7 Interference and Diffraction PQaTS*0SXJ
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Chapter 2. Thin Lens Ray Tracing L^q��CE-[
2.1 Getting Started 13?:a[~=�Y
2.2 Tracing Rays through a Series of Lenses ��Xu-�~j!
2.3 The y-u Trace byM%D$���R
2.4 Stops, Pupils, and Windows �/�stvNIEa
2.5 Evaluation of Systems Using the y-u Trace �]]|�#+$ ~
2.6 Effective Focal Length _�7!ZnJrR�
2.7 Cylindrical Lenses t|U���5]$5
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Chapter 3. Radiometry Q>5f@���aN
3.1 Basic Concepts and Terms DOW�W�G!mx
3.2 Radiometry in an Optical System J!Z6$V�ERy
3.3 Radiometry of Extended Sources Cu@q*�:��'
3.4 Applications ?`+VW�a[,e
3.5 Photometry and Spectrophotometry -6)n�QNj|
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Chapter 4. Mirrors and Prisms Kw-<�o!~��
CONTENTS Bz'.7"
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4.1 Mirror Images c�/$].VG�0
4.2 Plane Mirrors lf�"w/pb�'
4.3 Prisms Do4hg $:40
4.4 Fitting It In or Spreading It Out -nGcm"�'6F
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Chapter 5. Paraxial Ray Tracing DN%}�O�cpZ
5.1 The y-nu Trace vA6�`�};|
5.2 The Gaussian Constants V7W�L Gy.,
5.3 Chromatic Aberration ta�v@�a�)
5.4 Paraxial Ray Tracing, Calculators, and Computers WN�]k+�0�#
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Chapter 6. Exact Ray Traces / �=9Y(��v
6.1 Ray Tracing Techniques p&I>xu8�fl
6.2 Aberrations �q{h,}[U=
6.3 Correcting Aberrations 3�$"V,_TBZ
6.4 Optical Computation �:2j`NyLI.
6.5 Image Evaluation 6aB]&WO1@
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Chapter 7. Gaussian Beams (rFkXK4^J�
7.1 �J*� �!_O#
7.2 Modifying a Gaussian Beam -W!��M�:�8
7.3 Conjugate Distances Sfe[z=�7S�
7.4 Laser Beam Illumination �q�t9�jZtx
7.5 Higher Order Modes z#ge�br~_\
Characteristics of a Gaussian Beam b�I�m4��s�
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Chapter 8. Modulation and Scanning � eFs�l���
8.1 Modulation of Light �h� �GA2.{
8.2 Scanning ��4-
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8.3 Mechanical Scanners J�4eU6W+�{
8.4 Acousto-optical Scanners �0d2RB^"i
8.5 Holographic Scanners ���OcUj_Zd
8.6 Additional Topics NrS+N;�i��
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Chapter 9. Spectrometers �a=$ZM4�Bn
9.1 Filter Spectrometers �XHv�
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9.2 Prism Spectrometers {ccc[G?>.Q
9.3 Grating Spectrometers 8b�0j r��t
9.4 Spectrometer Systems 2���<*"@Vj
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Chapter 10. Detectors t,�LK92?��
10.1 The Eye-The Ultimate Detector qJF'KHyU{l
10.2 Thermal Detectors R:n|1]*f3X
10.3 Photographic Materials �,R=!ts[qi
10.4 Photoemissive Detectors z:�S:[X�0
10.5 Semiconductor Detectors X8v)yDt��w
10.6 Photodiode Arrays +6>2�= ,?Z
10.7 Detector Geometries �'bRf>�=�
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Chapter 11. The Design Process @5&5�7R3�>
1 1.1 Setting Down Objectives kKRu]0�J~[
11.2 Preliminary Design '�{0O!y[H6
11.3 The Breadboarding Process i�-w<5pGnf
11.4 Case Study-Laser Printer Design ]2L11"�erP
11.5 Case Study-Slide Projector Design 0Gj/yra9MO
1 1.6 Conclusions
