chapter 6, Radiometric Instrumentation

from: The Art of Radiometry

Author(s): James M. Palmer, Barbara G. Grant

Author(s): William L. Wolfe

Published: 15 December 2009

Chapter DOI: http://dx.doi.org/10.1117/3.798237.ch6

Chapter Page Count: 26 pages

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Front Matter

1. Introduction to Radiometry

2. Propagation of Optical Radiation

3. Radiometric Properties of Materials

4. Generation of Optical Radiation

5. Detectors of Optical Radiation

6. Radiometric Instrumentation

7. Radiometric Measurement and Calibration

A. Système International (SI) Units for Radiometry and Photometry

B. Physical Constants, Conversion Factors, and Other Useful Quantities

C. Antiquarian's Garden of Sane and Outrageous Terminology

D. Solid-Angle Relationships

E. Glossary

F. Effective Noise Bandwidth of Analog RC Filters and the Selection of Filter Parameters to Optimize Signal-to-Noise Ratio

G. Bandwidth Normalization by Moments

H. Jones Near-Small-Source Calibration Configuration

I. Is Sunglint Observable in the Thermal Infrared?

J. Documentary Standards for Radiometry and Photometry

K. Radiometry and Photometry Bibliography

L. Reference List for Noise and Postdetection Signal Processing

Back Matter

Preview

Chapter Contents

6.1 Introduction
6.2 Instrumentation Requirements
6.2.1 Ideal radiometer
6.2.2 Specification sheet
6.2.3 Spectral considerations
6.2.4 Spatial considerations
6.2.5 Temporal considerations
6.2.6 Make or buy?
6.3 Radiometer Optics
6.3.1 Introduction
6.3.2 Review of stops and pupils
6.3.3 The simplest radiometer: bare detector
6.3.4 Added aperture
6.3.5 Basic radiometer
6.3.6 Improved radiometer
6.3.7 Other methods for defining the field of view
6.3.8 Viewing methods
6.3.9 Reference sources
6.3.10 Choppers
6.3.11 Stray light
6.3.12 Summing up
6.4 Spectral Instruments
6.4.1 Introduction
6.4.2 Prisms and gratings
6.4.3 Monochromator configurations
6.4.4 Spectrometers
6.4.5 Additive versus subtractive dispersion
6.4.6 Arrays
6.4.7 Multiple slit systems
6.4.8 Filters
6.4.9 Interferometers
6.4.10 Fourier transform infrared
6.4.11 Fabry-Perot
For Further Reading
References

Excerpt

6.1 Introduction

Radiometric instruments vary in what they are intended to measure, how they do it, how complicated and expensive they are, how rugged, and in a number of other ways. In this chapter, the simplest of radiometers is considered, the components of radiometers are described, and spectral radiometers are covered.

6.2 Instrumentation Requirements

It surely comes as no surprise that different instruments have different requirements. For instance, the required accuracy and repeatability vary greatly with the application. A device meant for routine maintenance in the factory might have a radiometric uncertainty of about 20%, yielding a temperature uncertainty of a few degrees, whereas several different bureaus of standards have strived for uncertainties of 0.01%.

6.2.1 Ideal radiometer

It is hard to describe one ideal radiometer, but, in general, they should all measure the radiometric property accurately, precisely, and repeatedly. They should be simple to use, with easily interpreted outputs; of course, the ideal radiometer should be free of defects. Some need to be quite rugged for field use, but all should be able to withstand the environment or environments to which they are exposed. They should be sensitive and have a wide dynamic range, or they should at least be sensitive enough for the task at hand and have sufficient dynamic range for their use.

6.2.2 Specification sheet

In the fervent hope that you can obtain the ideal radiometer, the following specification sheet is presented. It may not be complete for all applications, and not all applications need all of these specifications, but it is a good start and a good guide.

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