Academics
Dop Course Outline
OS6023 Radiation and Detection
Last Revised: 2024-03-08
Course Objectives
Students can learn the fundamental principles in radiometry, photometry, and optical detection, and understand the process of the design and the calibration of a measurement instrument.
Prerequisite
Textbook Textbook: 1. The Art of Radiometry, by J. M. Palmer and B. G. Grant, SPIE Press. References: 1. Optical Radiation Detectors, by Dereniak & Crowe 2. Radiometry & Detection of Optical Radiation, by Boyd 3. Optical Radiation Measurements v. 1-5, Academic Press 4. Detection of Light – From the Ultraviolet to the Submillimeter, by Rieke 5. Radiation Detection & Measurement, by Knoll 6. CCD Arrays, Cameras, & Displays, by Holst 7. Noise Reduction Techniques in Electronic Systems, by Ott
Topical Outline 1. Propagation of Optical Radiation
2. Radiometric Properties of Materials
3. Generation of Optical Radiation
4. Detectors and Instrumentation
5. Radiometric Measurement and Calibration“
Prerequisite
Textbook Textbook: 1. The Art of Radiometry, by J. M. Palmer and B. G. Grant, SPIE Press. References: 1. Optical Radiation Detectors, by Dereniak & Crowe 2. Radiometry & Detection of Optical Radiation, by Boyd 3. Optical Radiation Measurements v. 1-5, Academic Press 4. Detection of Light – From the Ultraviolet to the Submillimeter, by Rieke 5. Radiation Detection & Measurement, by Knoll 6. CCD Arrays, Cameras, & Displays, by Holst 7. Noise Reduction Techniques in Electronic Systems, by Ott
Topical Outline 1. Propagation of Optical Radiation
2. Radiometric Properties of Materials
3. Generation of Optical Radiation
4. Detectors and Instrumentation
5. Radiometric Measurement and Calibration“