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Moeller K. — Optics: Learning by Computing, with Examples Using Maple, MathCad®, Matlab®, Mathematica®, and Maple® (Undergraduate Texts in Contemporary Physics)
Moeller K. — Optics: Learning by Computing, with Examples Using Maple, MathCad®, Matlab®, Mathematica®, and Maple® (Undergraduate Texts in Contemporary Physics)



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Название: Optics: Learning by Computing, with Examples Using Maple, MathCad®, Matlab®, Mathematica®, and Maple® (Undergraduate Texts in Contemporary Physics)

Автор: Moeller K.

Аннотация:

If you are a student of optics, this rather expensive text is not really going to help you that much considering the price. The best combination is Optics (4th Edition) for comprehension and Schaum's Outline of Optics for basic practice of what is covered in the textbook. Both books are written by the same author, and the first book might have been better if the author had incorporated more examples from his Schaum's outline into it. This book really glosses over explanations. The best part of the book are the programs that demonstrate various optics principles. These are included on the accompanying CD and are named at the different places in the book. Thus be careful if you buy a used copy, because without the CD you really don't have much. Students might want to look at the first edition, because besides branching out into other languages besides Mathcad, there really isn't that much difference between the two editions except price. For the instructor of college-level optics, I think this book is really useful. You can incorporate some of the programs into demonstrations and illustrate some difficult principles. For that purpose I highly recommend it.


Язык: en

Рубрика: Computer science/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 2nd

Год издания: 2007

Количество страниц: 459

Добавлена в каталог: 20.08.2014

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Reflection coefficients with absorption      333
Reflection in a mirror cavity      74
Reflection measurements      322
Reflection, amplitude      111
Reflection, intensity      114 116 224 227
Reflection, power      51
Reflection, reflected and transmitted      274
Refracting powers      51
Refraction      49
Refraction matrix      50
Refractive index      2 4 316
Relaxation time $\tau$      327
Resolution, coherent light      399
Resolution, grating      162
Resolution, incoherent light,      394
Resolving power      119 164
Resonance condition      304 308
Resonance mode      116
Resonance of vibrations      323
Resonance wave numbers      323
Resonator parameters      74
restricting      284
Right polarized light      237
Rotation      65
Rotation of the coordinate system      243
Round aperture      149
Round object      390
Round objects      391
Sagittal (horizontal) plane      428
Sagittal coma $C_{S}$      423 425
Sampling interval      359
Scalar wave equation      79 131
Schawlow and Townes      295
Selection rules      284
Sellmeier formula      324
Shape factor      421
Sign convention      11 69
Simulations of interferograms      358
Sine function and apodization      367
Single refracting surface      415
Single surface      416
Single-sided step function      343 346
Size of hologram      406
Skin depth      331 333
Slow axis      232
Small angle approximation      10 16 137 154
Solution of the eigenvalue problem      243
Spatial coherence      185
Spatial coherence, frequencies      376
Spatial coherence, wavelength      378
Spatial coherence, waves      376
Spherical aberration      415 416 418 421 422
Spherical mirrors      68
Spherical mirrors, concave spherical mirror      70
Spherical mirrors, convex spherical mirror      72
Spherical mirrors, graphical method      70
Spherical mirrors, magnification      69
Spherical mirrors, virtual image      73
Spherical surfaces      1 9 11 15
Spherical surfaces, conjugate points      9
Spherical surfaces, geometrical construction      16
Spherical surfaces, image focus      12
Spherical surfaces, image forming equation      11
Spherical surfaces, image point      10
Spherical surfaces, magnification      16 18
Spherical surfaces, real object      16
Spherical surfaces, sign convention      11
Spherical surfaces, virtual image      16 18 19
Spherical surfaces, virtual object      17 18 19
Spherical thick lens      58
Spherical wave      80 131
Spin states      283
Spontaneous emission $A_{21}$      275 289 293
Spread function      386 392 398
Standing wave conditions      249
Static conductivity      327
Static conductivity, gold      330
Static conductivity, lead      330
Static conductivity, nickel      330
Static conductivity, silver      330
Stefan — Boltzmann law      277 278
Step function      340
Step grating      178
Stratified media      252
Stratified media, antireflection coating      258
Stratified media, plate of thickness $d=\lambda/2n_{2}      257
Stratified media, two interfaces at distance d      253
Superposition of two cosine waves      84
Superposition of two double slit patterns      188
Superposition of wavetrains      201
Superposition, principle      80 208
Susceptibility $\chi$      317
Tangential coma CT      424 425
TE modes      262 270
Telescope      44
Telescope, Galilean      46
Telescope, Kepler's      44
Temporal coherence      200
Temporal coherence, length of wavetrains      202
Temporal coherence, quasimonochromatic light      200
Temporal coherence, superposition      200
Temporal coherence, wavetrains      200
Theory of Color      7
Thick lens      51 54
Thick lens, concentration lens      67
Thick lens, focal length      54
Thick lens, matrix      51
Thick lens, two hemispherical      62 63
Thick lens, two thick lenses      61 63
Thick lens, virtual image      67
Thin lens      24 33 53 54 418 422
Thin lens, different media      34
Thin lens, equation      23 30
Thin lens, image focus      24
Thin lens, magnification      25
Thin lens, matrix      52
Thin lens, model      1
Thin lens, negative lens      31
Thin lens, object focus      24
Thin lens, positive lens      26
Thin lens, transformation to principal planes      54
Thin lens, two different media      33
Thin lens, two thin lenses      36
Thin lens, two thin lenses in air      59
Thin lens, virtual image      29 32
Thin lens, virtual object      29 32
Three lens system      42
Three-level laser      296
Threshold condition      294—296
Time average      87
Time-dependent      88
TM modes      265
Total internal reflection      259 263
Total reflection      226 228 229
Transfer function      392 401
Transfer function, function for (Bess/arg)      402
Transfer function, function for (sin x/x)      402
Translation matrices      49 51
Transmission coefficient      221
Transmission intensity      225 227
Transmittance T      223
Transposed matrix      65
Trigonometric formulas      440
Two lens system      36
Two lenses in air      59
Two round apertures      391 395
Two-level system      292
Uniaxial crystals      231
Unit matrix      65
Velocity for travel      4
Vertex of the spherical surfaces      56
Violet catastrophe      275
Virtual image      16 29 32 68 404 405
Virtual object      30 32
Visibility      194—196
Visibility for two point sources      194
Water waves      83
Wave equation      242 317
Wavefront division      89
Wavelength      279
Wavelength, $\lambda$      142
Wavetrains      200 287
Wedge shaped air gap      99
Wien's displacement law      278
Young's Experiment      90 91 96
Young, Thomas      79
1 2 3
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