國立虎尾科技大學 |

Optical design of microscopes

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Optical design of microscopes/ George Seward.
作者:	Seward, George.
出版者:	Bellingham, Wash. (1000 20th St. Bellingham WA 98225-6705 USA) :SPIE, : 2010.,
面頁冊數:	1 online resource (xiii, 243 p. : ill.) :digital file. :
附註:	"SPIE digital library."
標題:	Microscopes. -
電子資源:	http://dx.doi.org/10.1117/3.855480
ISBN:	9780819480965 (electronic)

Optical design of microscopes
Seward, George.

Optical design of microscopes[electronic resource] /George Seward. - Bellingham, Wash. (1000 20th St. Bellingham WA 98225-6705 USA) :SPIE,2010. - 1 online resource (xiii, 243 p. : ill.) :digital file. - Tutorial texts in optical engineering ;v. TT88. - SPIE tutorial texts ;TT06..

"SPIE digital library."

Includes bibliographical references (p. 229-236) and index.

Preface -- Chapter 1. Optical design concepts. -- 1.1. A value proposition -- 1.2. Specimen model -- 1.3. Detector parameters -- 1.4. Numerical aperture -- 1.5. Wave propagation -- 1.6. Geometric aberrations -- 1.7. Image contrast -- 1.8. Manufacturing -- 1.9. Assembly -- Chapter 2. Basic microscope concepts -- 2.1. Magnification -- 2.2. Accommodation -- 2.3. Finite tube length -- 2.4. Infinity-corrected objective -- 2.5. Tube lens -- 2.6. Ocular lens -- 2.7. Refractive objects -- 2.8. Diffractive objects -- 2.9. Dark field -- Chapter 3. Basic geometric optics -- 3.1. Ray tracing -- 3.2. Cardinal points -- 3.3. Stops -- 3.4. Gaussian lens formula -- 3.5. Image types -- 3.6. Optical power -- 3.7. Paraxial optics -- 3.8. Relay lens -- 3.9. Magnifier -- Chapter 4. Aberrations. -- 4.1. Seidel aberrations -- 4.2. Chromatic aberrations -- 4.3. Other aberrations -- 4.4. Aspheric surfaces -- Chapter 5. Basic physical optics -- 5.1. Importance of physical optics -- 5.2. Wave equation -- 5.3. Refractive index -- 5.4. Dispersion -- 5.5. Refraction and reflection -- 5.6. Emission -- 5.7. Absorption -- 5.8. Evanescent field -- 5.9. Space-angle product -- 5.10. Coherence -- 5.11. Airy pattern -- 5.12. Gaussian beam propagation -- 5.13. Transfer functions -- 5.14. Gaussian estimate of airy pattern -- 5.15. Scatter -- 5.16. Interference filters -- Chapter 6. Fluorescence -- 6.1. Absorption Parameters -- 6.2. Electron States -- 6.3. Energy Diagrams -- 6.4. Fluorophores.

Restricted to subscribers or individual electronic text purchasers.

Knowledge of microscope design is rapidly becoming more important. Microscopes are used in critical applications such as drug development, clinical tests, and genomics. Considerable expertise is required for the evaluation, design, and manufacture of these instruments. Several subsystems must be integrated: the source, the illumination optics, the specimen, the objective lens, the tube optics, and the sensor. The large numerical aperture of a microscope is essential for small spot size and high brightness; however, the large numerical aperture also presents difficult issues in optical design and fabrication. This book provides a foundation for developing design expertise through education, practice, and exploration. It is suitable for lens designers, optical engineers, and students with a basic knowledge of microscope structure.

Mode of access: World Wide Web.

ISBN: 9780819480965 (electronic)

Standard No.: 10.1117/3.855480doiSubjects--Topical Terms:

655264
Microscopes.

LC Class. No.: QH211 / .S478 2010e

Dewey Class. No.: 681/.413

Optical design of microscopes
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245 1 0 $a Optical design of microscopes $h [electronic resource] / $c George Seward.
260 $a Bellingham, Wash. (1000 20th St. Bellingham WA 98225-6705 USA) : $b SPIE, $c 2010.
300 $a 1 online resource (xiii, 243 p. : ill.) : $b digital file.
490 1 $a Tutorial texts in optical engineering ; $v v. TT88
500 $a "SPIE digital library."
504 $a Includes bibliographical references (p. 229-236) and index.
505 0 $a Preface -- Chapter 1. Optical design concepts. -- 1.1. A value proposition -- 1.2. Specimen model -- 1.3. Detector parameters -- 1.4. Numerical aperture -- 1.5. Wave propagation -- 1.6. Geometric aberrations -- 1.7. Image contrast -- 1.8. Manufacturing -- 1.9. Assembly -- Chapter 2. Basic microscope concepts -- 2.1. Magnification -- 2.2. Accommodation -- 2.3. Finite tube length -- 2.4. Infinity-corrected objective -- 2.5. Tube lens -- 2.6. Ocular lens -- 2.7. Refractive objects -- 2.8. Diffractive objects -- 2.9. Dark field -- Chapter 3. Basic geometric optics -- 3.1. Ray tracing -- 3.2. Cardinal points -- 3.3. Stops -- 3.4. Gaussian lens formula -- 3.5. Image types -- 3.6. Optical power -- 3.7. Paraxial optics -- 3.8. Relay lens -- 3.9. Magnifier -- Chapter 4. Aberrations. -- 4.1. Seidel aberrations -- 4.2. Chromatic aberrations -- 4.3. Other aberrations -- 4.4. Aspheric surfaces -- Chapter 5. Basic physical optics -- 5.1. Importance of physical optics -- 5.2. Wave equation -- 5.3. Refractive index -- 5.4. Dispersion -- 5.5. Refraction and reflection -- 5.6. Emission -- 5.7. Absorption -- 5.8. Evanescent field -- 5.9. Space-angle product -- 5.10. Coherence -- 5.11. Airy pattern -- 5.12. Gaussian beam propagation -- 5.13. Transfer functions -- 5.14. Gaussian estimate of airy pattern -- 5.15. Scatter -- 5.16. Interference filters -- Chapter 6. Fluorescence -- 6.1. Absorption Parameters -- 6.2. Electron States -- 6.3. Energy Diagrams -- 6.4. Fluorophores.
505 0 $a Chapter 7. Optical design metrics -- 7.1. CAD tools -- 7.2. Wavefront error -- 7.3. Ray-intercept plot -- 7.4. Spot diagram -- 7.5. Point-spread plot -- 7.6. Encircled-energy plot -- 7.7. Modulation transfer function -- 7.8. Edge spread -- 7.9. Lens report -- 7.10. Relative illumination -- 7.11. Surface-form error -- 7.12. Manufacturing standards -- Chapter 8. Image contrast -- 8.1. Radiometry -- 8.2. Expression of contrast -- 8.3. Shot noise -- 8.4. Emittance patterns -- 8.5. Angular collection efficiency -- 8.6. Spatial collection efficiency -- 8.7. Full-pixel contrast -- 8.8. Subpixel contrast -- 8.9. Point-source contrast -- 8.10. Full-pixel airy contrast -- Chapter 9. microlens formats -- 9.1. 10XR double Gauss -- 9.2. 10XR microlens -- 9.3. 2XR microlens -- 9.4. 1X microlens -- 9.5. 2XR telecentric spectroscopy lens -- Chapter 10. Illumination systems -- 10.1. Condenser -- 10.2. Abbe illumination -- 10.3. Nelson illumination -- 10.4. Diffusers -- 10.5. K�ohler illumination -- 10.6. Matched stops -- 10.7. Light-emitting diodes -- 10.8. Aspheric plus singlet relay -- 10.9. Achromatic aspheric plus doublet relay -- 10.10. Abbe condenser -- 10.11. Abbe aspheric -- 10.12. Total internal reflection fluorescence illumination -- Chapter 11. Cover strata -- 11.1. Importance of specimen tolerance -- 11.2. Perfect 10X for air -- 11.3. 10X objective with cover glass in place of air -- 11.4. 10X objective with microscope slide in place of air -- 11.5. 40X objective with silica cover in place of glass -- 11.6. 40X objective with tilted cover glass -- 11.7. 60X objective with silica cover in place of glass -- 11.8. Strehl ratio versus optical path length.
505 0 $a Chapter 12. Objective lenses -- 12.1. Formats -- 12.2. Aplanatic surface -- 12.3. 10X Plan achromat -- 12.4. 40X Fluor -- 12.5. 60X Immersion TIRF -- 12.6. 100X Aplanat -- 12.7. 10X Schwarzschild -- 12.8. 20X Internal parabola -- Chapter 13. Tube elements -- 13.1. Doublet tube lens -- 13.2. Doublet-pair tube lens -- 13.3. Filter types -- 13.4. Filter within a finite conjugate distance -- 13.5. Warped filter within an infinity correction -- Chapter 14. Ocular lenses -- 14.1. Eyepiece -- 14.2. Pupils -- 14.3. Kellner ocular -- 14.4. Pl�ossl ocular -- 14.5. Erfle ocular -- Chapter 15. Sensors -- 15.1. CCD sensors -- 15.2. Active pixel sensors -- 15.3. Photomultiplier tubes -- 15.4. Film -- Chapter 16. Human vision -- 16.1. Physiology -- 16.2. Contrast sensitivity function -- 16.3. Point spread of a lens -- 16.4. Lateral inhibition of the retina -- 16.5. Temporal feedback of photoreceptors -- 16.6. Saccation point spread -- 16.7. Vision research -- 16.8. Temporal contrast sensitivity function.
505 0 $a Chapter 17. Optical materials -- 17.1. Glass types -- 17.2. Glass map -- 17.3. Fluorite -- 17.4. Short flint -- 17.5. Anomalous dispersion -- 17.6. Sellmeier formula -- 17.7. Environmentally safe glass -- 17.8. Glass code -- 17.9. Spectral lines -- 17.10. Cost of optics -- 17.11. Structural materials -- Chapter 18. Composition and spectra of materials -- 18.1. Glass structure -- 18.2. Crown -- 18.3. Flint -- 18.4. Long crown -- 18.5. Short flint -- 18.6. Short-flint special -- 18.7. Environmentally safe short flint -- 18.8. Dense Flint -- Chapter 19. Advanced concepts -- 19.1. Wave equation -- 19.2. Refractive index -- 19.3. Relative partial dispersion -- 19.4. Emission -- 19.5. Coherence -- 19.6. Gaussian beam power -- 19.7. Transfer functions -- 19.8. Scatter -- 19.9. Interference filters -- 19.10. Shot noise -- Appendix: Prescriptions -- Works consulted -- Recommended reading -- References -- Index.
506 $a Restricted to subscribers or individual electronic text purchasers.
520 $a Knowledge of microscope design is rapidly becoming more important. Microscopes are used in critical applications such as drug development, clinical tests, and genomics. Considerable expertise is required for the evaluation, design, and manufacture of these instruments. Several subsystems must be integrated: the source, the illumination optics, the specimen, the objective lens, the tube optics, and the sensor. The large numerical aperture of a microscope is essential for small spot size and high brightness; however, the large numerical aperture also presents difficult issues in optical design and fabrication. This book provides a foundation for developing design expertise through education, practice, and exploration. It is suitable for lens designers, optical engineers, and students with a basic knowledge of microscope structure.
530 $a Also available in print version.
538 $a Mode of access: World Wide Web.
538 $a System requirements: Adobe Acrobat Reader.
588 $a Title from PDF t.p. (viewed on May 28, 2010).
650 0 $a Microscopes. $3 655264
650 0 $a Optics. $3 595336
710 2 $a Society of Photo-optical Instrumentation Engineers. $3 700253
830 0 $a SPIE tutorial texts ; $v TT06. $3 877241
856 4 0 $u http://dx.doi.org/10.1117/3.855480