Physics:Field flattener lens

Field flattener lens is a type of lens used in modern binocular designs^{[lower-alpha 1]} and in astronomic telescopes to improve edge sharpness. Field flattener lenses counteract the Petzval field curvature of an optical system, mitigating the field-angle dependence of the focal length of a system.

Details

The object in designing a field flattening lens is to create a lens that shifts the focal points of the Petzval surface to lie in the same plane. Consider inserting a pane of glass in a focusing beam. Due to refraction, the focal point of the beam is shifted by [math]\displaystyle{ \delta_{x} }[/math] dependent on the thickness of the glass. Thus we have a thickness as a function of focal shift:

[math]\displaystyle{ t(\delta_{x})=\left(\frac{n}{n-1}\right)\delta_{x} }[/math].

[math]\displaystyle{ \delta_{x}(y) }[/math] is given by the radius of curvature of the Petzval surface, [math]\displaystyle{ R_{p} }[/math]. It can be shown, then, that the radius of curvature for the lens that would flatten out the field is given by

[math]\displaystyle{ R_{f}=\left(\frac{n-1}{n}\right)R_{p}. }[/math] ^[1]

Examples of use

In the 21st century, the New Horizons spacecraft, which was an unmanned space probe sent past Pluto and the Kuiper belt, had a telescope instrument called the Long Range Reconnaissance Imager.^[2] LORRI was a reflecting telescope but incorporated a field-flattening lens, with three elements.^[2]

See also

• Petzval field curvature
• Coma corrector

Notes

References

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