3.1 Light: an Elusive Topic
In order to begin to understand the field of optical engineering and the function of the optical engineer, it is essential that we first develop some sense of what light is and how it behaves. It has been the experience of many (including myself) that this understanding need be neither comprehensive nor precisely correct to be valuable to the optical engineer in the execution of his day-to-day responsibilities. After all, as we have seen in the previous chapter, many of the great minds throughout history have made significant contributions to the science of optics while maintaining incomplete, or in some cases completely erroneous, theories regarding the nature and behavior of light.
3.2 Understanding Light
First, we can safely and correctly state that light is energy. We know that light is electromagnetic energy and that, in terms of wavelength, it represents a very small part of the broad electromagnetic spectrum (see Fig. 3.1). It will be helpful if we pursue our understanding of the term wavelength a bit further at this point. In one general and very useful definition, light is that portion of the electromagnetic spectrum that the human visual system (the eye) is capable of detecting. That is to say, light is the electromagnetic energy that we can see. Under normal daytime conditions, the eye has a maximum sensitivity to light with a wavelength of 0.56 micrometers (Î¼m). Let us convert this number (0.56 Î¼m) to a more meaningful and comprehensible form. A meter represents a length of about 40 inches, or a little more than one yard. A millimeter is 1/1000th of a meter, or about the thickness of 10 pages in this book. A micrometer (often referred to as a micron) is 1/1000 of a millimeter, and the peak wavelength for visible light is about one half of that. Therefore, one wavelength of visible light has a length approximately equal to 1/200 the thickness of a single page in this book.
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