afocal system adapting two gaussian beams

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afocal system adapting two gaussian beams

beam propagation

elliptical beam beam shaping with a curved refracting surface beam shaping with a cylindrical lens beam shaping with a real lens beam shaping with a real lens interfacing different media beam shaping with a spherical mirror beam shaping with an afocal system beam shaping with two cylindrical lenses beam shaping with two lenses characteristic parameters real intensity distribution during propagation shaping with a refractive optical systemelliptical beam - vertical and horizontal waists at different positions beam shaping with a cylindrical lens beam shaping with a single lensgaussian beam beam shaping with a cylindrical lens beam shaping with a lens interfacing different media beam shaping with a real lens beam shaping with a refracting surface beam shaping with a refractive optical system beam shaping with a spherical mirror beam shaping with an afocal system beam shaping with two thin lenses characteristic parameters depth of focus transmission through a circular apertureoptical system for adapting two beams afocal system adapting two gaussian beams anamorphosing of an elliptical beam paraxial system adapting two gaussian beams paraxial system adapting two gaussian beams-waists in the focal planes

.../ beam propagation / optical system for adapting two beams / afocal system adapting two gaussian beams

INPUT	VALUE	UNIT	VARIABLE	MIN	MAX	STEPS
wo
wio
L

OUTPUT	VALUE	UNIT
fi1	to be calculated
fi2	to be calculated
e	to be calculated