The Rayleigh criterion provides a convenient way to describe the theoretical resolution (e.g. an ability to distinguish objects ) of an optical system. The criterion states that two small bright sources of light can be resolved if the first d minimum of the image of one source point just coincides with of further apart then the first maximum of another (s below). A converging lens, 28.7 mm in diameter, is used to form images of distant objects. Considering the diffractic lens, what angular separation must two distant point objects have in order to satisfy Rayleigh's criterion? Assume t wavelength of the light from the distant objects is 469 nm. Provide your answer in millidegrees (mdeg).
The Rayleigh criterion provides a convenient way to describe the theoretical resolution (e.g. an ability to distinguish objects ) of an optical system. The criterion states that two small bright sources of light can be resolved if the first d minimum of the image of one source point just coincides with of further apart then the first maximum of another (s below). A converging lens, 28.7 mm in diameter, is used to form images of distant objects. Considering the diffractic lens, what angular separation must two distant point objects have in order to satisfy Rayleigh's criterion? Assume t wavelength of the light from the distant objects is 469 nm. Provide your answer in millidegrees (mdeg).
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