Everything about Piston Optics totally explained
In
optics, the term
piston is simply the
mean value of a
wavefront or
phase profile across the pupil of an optical system. The piston coefficient is typically expressed in
wavelengths of light at a particular
wavelength. Its main use is in curve-fitting wavefronts with
Cartesian polynomials or
Zernike polynomials.
However, similar to a real V8 engine piston moving up and down in its cylinder, optical piston values can be changed to
bias the wavefront phase mean value as desired. As phase values can only vary from zero to 2π, then repeat in either direction (termed
phase wrapping), changing the piston coefficient changes the zero phase value contour locations across the wavefront. This property is critical to the operation of
phase-measuring interferometers, which give not only the magnitude but also the sign (or ) of a wavefront under test. Piston is physically created in the interferometer by
piezoelectric actuators that translate the
Fizeau interferometer reference surface along the optical axis by precise fractions of the test wavelength, usually by one quarter of a wavelength. This changes the interferometric fringe patterns and allows direct calculation of the exact wavefront error.
Piston and
tilt are not actually true optical
aberrations, as they don't represent or model
curvature in the wavefront.
Defocus is the lowest order true optical aberration. If piston and tilt are subtracted from an otherwise perfect wavefront, a perfect, aberration-free image is formed.
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