- Achromatic telescope
The achromatic telescope is a
refracting telescope that uses anachromatic lens to correct forchromatic aberration .How it works
When an image passes through a lens, the light is diffracted at different angles for different
wavelength s. This producesfocal length s that are dependent on the color of the light. So, for example, at the focal plane an image may be focused at the red end of the spectrum, but blurred at the blue end. This effect is particularly noticeable the further an object lies from the central axis of the telescope. The image of a star can appear blue on one side and orange on the other. Early refracting telescopes withnon-achromatic objective s were constructed with very longfocal length s to mask the chromatic aberration. An Achromatic telescope uses an achromatic lens to correct for this. An achromatic lens is a compound lenses made with two types of glass with different dispersion. One element, a lens made out ofFlint glass , has relatively high dispersion, while the other, a element made of Crown glass, has a lower dispersion. The crown lens is usually placed at the front due to the higher susceptibility of flint glass to atmospheric attack. The lens elements are mounted next to each other and shaped so that the chromatic aberration of one is counter-balanced by the chromatic aberration of the other, while the positive power of the crown lens element is not quite equaled by the negative power of the flint lens element. Together they form a weak positive lens that will bring two different wavelengths of light to a common focus.Achromatic telescope designs
Littrow doublet
Uses an equiconvex crown with R1=R2, and a flint with R3=-R2 and a flat back. Can produce a ghost image between R2 and R3 because they have the same radii. May also produce a ghost image between the flat R4 and rear of the telescope tube.
Fraunhofer
R1 is set greater than R2, and R2 is set close to, but not equal, R3. R4 is usually greater than R3.
Clark doublet
Uses an equiconvex crown with R1=R2, and a flint with R3~R2 and R4>>R3. R3 is set slightly shorter than R2 to create a focus mismatch between R2 and R3, thereby reducing ghosting between the crown and flint.
Oil spaced doublet
The use of oil between the crown and flint eliminates the effect of ghosting, particularly where R2=R3. It can also increase light transmission slightly and reduce the impact of errors in R2 and R3.
ee also
*
Apochromat
*History of telescopes
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