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Chapter 1. A Review of Elementary Optics pDlh�^?cux
1.1 Light W�D�iF:@^K
1.2 Laws of Geometrical Optics ls6y�wLP�{
1.3 Mirrors and Lenses-Ray Sketching 8�X�]j;�Rb
1.4 Mirrors and Lenses-Calculations ��I=^�%�l7
1.5 Simple Optical Instruments f(?`PD�[��
1.6 Polarization GKP�qBi[rO
1.7 Interference and Diffraction \o@b5z��]e
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Chapter 2. Thin Lens Ray Tracing DRV�vW�6s�
2.1 Getting Started �*.EtdcRo[
2.2 Tracing Rays through a Series of Lenses t Q_}�o��[
2.3 The y-u Trace j�&A�yk��*
2.4 Stops, Pupils, and Windows W^&t8�d2��
2.5 Evaluation of Systems Using the y-u Trace G$�4l�H>A&
2.6 Effective Focal Length 0�tB9X9�:,
2.7 Cylindrical Lenses v(4C?�vxhG
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Chapter 3. Radiometry �yZFv�pw|g
3.1 Basic Concepts and Terms a+��m�q=K
3.2 Radiometry in an Optical System mi�HW1�h[=
3.3 Radiometry of Extended Sources �^ I,1kl~i
3.4 Applications f�oE2�rV/Y
3.5 Photometry and Spectrophotometry ,�l7ty�#�j
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Chapter 4. Mirrors and Prisms IN�zQ0�z-z
CONTENTS ���ZL�KS4
4.1 Mirror Images #>ci!4Gz=Z
4.2 Plane Mirrors O t�`}eL-
4.3 Prisms S_2I�8G^�A
4.4 Fitting It In or Spreading It Out hY'"^?O�P
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Chapter 5. Paraxial Ray Tracing �-�07�(�#>
5.1 The y-nu Trace ^Z:�x poz,
5.2 The Gaussian Constants a9jY^E�'|n
5.3 Chromatic Aberration E4y��"$U%.
5.4 Paraxial Ray Tracing, Calculators, and Computers �n7<<�}wcV
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Chapter 6. Exact Ray Traces NK#�Dq&W+&
6.1 Ray Tracing Techniques sQihyq6U;
6.2 Aberrations nNi�lT�J
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6.3 Correcting Aberrations `O}�.
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6.4 Optical Computation �F/EHU?_EI
6.5 Image Evaluation "l� +Jx|h\
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Chapter 7. Gaussian Beams _�9�
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7.2 Modifying a Gaussian Beam nVyb B~�.=
7.3 Conjugate Distances �^2^ptQj�
7.4 Laser Beam Illumination \HK#d1>ox�
7.5 Higher Order Modes ��P<4jY�?.
Characteristics of a Gaussian Beam H#Og0gEE}5
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Chapter 8. Modulation and Scanning Vj�?.�'��(
8.1 Modulation of Light ����DD3J2J
8.2 Scanning {8B�\-LU�R
8.3 Mechanical Scanners >MP PYVn�7
8.4 Acousto-optical Scanners �q�o.
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8.5 Holographic Scanners ?� !� �1uw
8.6 Additional Topics m/��6o�Q��
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Chapter 9. Spectrometers ;_Rx|~!��!
9.1 Filter Spectrometers <�R��hKlCP
9.2 Prism Spectrometers nW drVT�$�
9.3 Grating Spectrometers e&0B4wVA�Q
9.4 Spectrometer Systems .ySesN: C~
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Chapter 10. Detectors dU&.gFw1��
10.1 The Eye-The Ultimate Detector m�1[Q�D2�6
10.2 Thermal Detectors 9C4l�@�jrF
10.3 Photographic Materials l5h9E�q���
10.4 Photoemissive Detectors s*8�hN*A/,
10.5 Semiconductor Detectors k�a>RAr� J
10.6 Photodiode Arrays �~y|��%D;
10.7 Detector Geometries MZd�\.]G@�
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Chapter 11. The Design Process ���2Qy�!Aa
1 1.1 Setting Down Objectives q/B+F%QiMQ
11.2 Preliminary Design uRL3v01?H0
11.3 The Breadboarding Process ��\��
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11.4 Case Study-Laser Printer Design X����
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11.5 Case Study-Slide Projector Design ynDx'Q*�N'
1 1.6 Conclusions
