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Chapter 1. A Review of Elementary Optics #W��lT�E&�
1.1 Light Klj� �-dz�
1.2 Laws of Geometrical Optics Py~�1��xf/
1.3 Mirrors and Lenses-Ray Sketching Jmml2?V-c�
1.4 Mirrors and Lenses-Calculations ~#];&��W�E
1.5 Simple Optical Instruments crb��ph.0�
1.6 Polarization �$�l�=�&�
1.7 Interference and Diffraction 6�.'j��\��
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Chapter 2. Thin Lens Ray Tracing &`�%J�1[dy
2.1 Getting Started dI�?x&#(vw
2.2 Tracing Rays through a Series of Lenses ��\n<9R8g5
2.3 The y-u Trace F^Y%Q(Dd7w
2.4 Stops, Pupils, and Windows pdy�S�i�p<
2.5 Evaluation of Systems Using the y-u Trace R^?9�V=Y<T
2.6 Effective Focal Length Ju@8_ ?8�=
2.7 Cylindrical Lenses BA�6(Ow�b�
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Chapter 3. Radiometry B(1�W�I_}~
3.1 Basic Concepts and Terms ;W?mQUo:P8
3.2 Radiometry in an Optical System %}}?Y`/W�)
3.3 Radiometry of Extended Sources _zK
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3.4 Applications %�:�!ILN��
3.5 Photometry and Spectrophotometry �{%+UQ!]d8
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Chapter 4. Mirrors and Prisms c\�l�e8C�3
CONTENTS +'�0V6��\y
4.1 Mirror Images WYm���<_1
4.2 Plane Mirrors re)�7�h$f}
4.3 Prisms H{4_,2h�=m
4.4 Fitting It In or Spreading It Out �;Xl {m`E+
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Chapter 5. Paraxial Ray Tracing �}B� ?_>�0
5.1 The y-nu Trace Nil�nS!�BM
5.2 The Gaussian Constants u10;qYfL8o
5.3 Chromatic Aberration HV=�P!��v6
5.4 Paraxial Ray Tracing, Calculators, and Computers HJ_8 `( �'
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Chapter 6. Exact Ray Traces D4O^5?F)|�
6.1 Ray Tracing Techniques "�9X1T]���
6.2 Aberrations ����iyv�5\
6.3 Correcting Aberrations �Gzc`5n�{"
6.4 Optical Computation �&)izh) FA
6.5 Image Evaluation 8/<+p? 3p>
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Chapter 7. Gaussian Beams ��+Kp8X�53
7.1 �6>gm�!6`�
7.2 Modifying a Gaussian Beam :(YFIW`59
7.3 Conjugate Distances &f��W'_,�-
7.4 Laser Beam Illumination �w�����v�
7.5 Higher Order Modes {8"U�xj_6V
Characteristics of a Gaussian Beam "$.B@[iY�@
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Chapter 8. Modulation and Scanning AAF']z<4_"
8.1 Modulation of Light TDX~?>���P
8.2 Scanning ��X#o<)��)
8.3 Mechanical Scanners }a�g;yf�;
8.4 Acousto-optical Scanners 9\VV++}s>o
8.5 Holographic Scanners �Oe2�1no�L
8.6 Additional Topics i1 c[Gk.�o
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Chapter 9. Spectrometers �a��A]wF�Z
9.1 Filter Spectrometers D�
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9.2 Prism Spectrometers ��x~ID[���
9.3 Grating Spectrometers �u
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9.4 Spectrometer Systems G�i\Z"MiBZ
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Chapter 10. Detectors 2�^qJ'<2]M
10.1 The Eye-The Ultimate Detector �R�h%A^j�@
10.2 Thermal Detectors .I���]E�P-
10.3 Photographic Materials NN�M�n�,�J
10.4 Photoemissive Detectors �-^JPY)�\R
10.5 Semiconductor Detectors �LbuhKL}VN
10.6 Photodiode Arrays �q ,+�29�
10.7 Detector Geometries XUA�%�3X�r
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Chapter 11. The Design Process R5�xV_;�wD
1 1.1 Setting Down Objectives �'�$[a-�)4
11.2 Preliminary Design IP^1c�a#�<
11.3 The Breadboarding Process P���?�@o?�
11.4 Case Study-Laser Printer Design h�0C>z2�iH
11.5 Case Study-Slide Projector Design )<$<�9!L4x
1 1.6 Conclusions
