Photon transfer : DN [lambda] /

Photon Transfer is designed for a wide audience--from the novice to the advanced user already familiar with the method. For first-time users, the book's primary purpose is to give sufficient guidelines to accurately generate, calibrate, and understand imaging data products through the photon tr...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Janesick, James R.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bellingham, Wash. : SPIE, ©2007.
Colección:SPIE Press monograph ; PM170.
Temas:
Image converters > Calibration.
Image processing > Digital techniques > Mathematics.
Photon transport theory.
Engineering mathematics > Formulae.
Image processing > Digital techniques.
Théorie du transport des photons.
Convertisseurs d'images > Étalonnage.
Traitement d'images > Techniques numériques.
Traitement d'images > Techniques numériques > Mathématiques.
Mathématiques de l'ingénieur > Formules.
digital imaging.
TECHNOLOGY & ENGINEERING > Mechanical.
Engineering mathematics.
Mathematical formulae.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Preface
  • 1. Introduction. 1.1. Photon transfer history and application
  • 1.2. Photon transfer family
  • 1.3. Chapter review
  • 2. Photon interaction. 2.1. Photoelectric effect
  • 2.2. Quantum efficiency
  • 2.3. Quantum yield
  • 3. Photon transfer noise sources. 3.1. Photon shot noise
  • 3.2. Signal shot noise
  • 3.3. Fano noise
  • 3.4. Fixed pattern noise
  • 3.5. Read noise
  • 4. Photon transfer theory. 4.1. Photon transfer relation
  • 4.2. Sense node sensitivities
  • 4.3. Interacting photon sensitivities
  • 4.4. Incident photon sensitivities
  • 4.5. Photon transfer general derivation
  • 4.6. Effective quantum yield
  • 5. Photon transfer curve. 5.1. PTC setup and generation
  • 5.2. PTC family
  • 5.3. PTC errors
  • 5.4. Shutterless (time-delayed integration) PTC
  • 5.5. Variance PTC
  • 5.6. Example experimental PTC data
  • 6. E-/dn variance
  • 7. Nonlinearity. 7.1. Introduction
  • 7.2. V/V nonlinearity
  • 7.3. V/E- nonlinearity
  • 8. Flat fielding. 8.1. Theory
  • 8.2. Photon transfer verification
  • 8.3. Nonlinearity.
  • 9. Modulation photon transfer. 9.1. Introduction
  • 9.2. Sinusoidal signal
  • 9.3. Sinusoidal noise
  • 9.4. Modulation PTC
  • 10. Signal-to-noise performance. 10.1. Uniform stimulus
  • 10.2. Image s/n performance
  • 10.3. Flat fielding
  • 10.4. Image averaging
  • 10.5. On-chip averaging
  • 11. Read noise. 11.1. Introduction
  • 11.2. Pixel source follower noise
  • 11.3. Sense node reset noise
  • 11.4. Dark current noise
  • 11.5. ADC quantizing noise
  • 11.6. Offset fixed pattern noise
  • 11.7. System noise
  • 12. Lux transfer. 12.1. Introduction
  • 12.2. Minimum detection limit
  • 12.3. Responsivity
  • 12.4. Modulation ltc
  • 12.5. Acceptable image
  • 12.6. LTC ratio
  • 12.7. LTC data sequence
  • Appendix A. PTC data reduction example
  • Appendix B. PTC simulation program with thermal dark current
  • Appendix C. PTC simulation program with FPN removal through flat fielding
  • Appendix D. LTC simulation program with thermal dark current
  • Table of symbols
  • References
  • Index.

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