Extended hemispherical lens

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The extended hemispherical lens is a commonly used lens for millimeter-wave electromagnetic radiation. Such lenses are typically fabricated from dielectric materials such as Teflon or silicon. The geometry consists of a hemisphere of radius R on a cylinder of length L, with the same radius.

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Scanning performance

When a feed element is placed a distance d off the central axis, then the main beam will be steered an angle γ off-axis. The relation between d and γ can be determined from geometrical optics:¹

d L = tan ⁡ γ . {\displaystyle {\frac {d}{L}}=\tan \gamma .}

This relation is used when designing focal plane arrays to be used with the extended hemispherical lens.

References

Frid, Henrik (2016). "Closed-Form Relation Between the Scan Angle and Feed Position for Extended Hemispherical Lenses Based on Ray Tracing". IEEE Antennas and Wireless Propagation Letters. 15: 1963. Bibcode:2016IAWPL..15.1963F. doi:10.1109/LAWP.2016.2545858. S2CID 24384665. /wiki/Bibcode_(identifier) ↩

Scanning performance

See also

References