Optics Calculator

This calcaulator will help you calcaulate the magnification of a laser beam by a telescope consisting of two convex lenses

$M'$=$M\sqrt{1+(\frac{\lambda l}{\pi W^2_0}})^2$ $M$=$\frac{F_2}{F_1}$

Laser Wavelength $\lambda$; Focal Length of Lens (input side) $F_1$; Focal Length of Lens (output side) $F_2$; Incident laser wasit radius $W_0$;
Distance between the input waist and the input lens $l$;

Input

Laser Wavelength, $\lambda$:

Incident laser waist radius, $W_0$:

Focal Length of Lens (Input side), $F_1$:

Focal Length of Lens (output side), $F_2$:

Distance between the input waist and the input lens, $l$:

Output

Magnification With A Telescope

$M'$=$M\sqrt{1+(\frac{\lambda l}{\pi W^2_0}})^2$ $M$=$\frac{F_2}{F_1}$

Laser Wavelength, $\lambda$:

Incident laser waist radius, $W_0$:

Focal Length of Lens (Input side), $F_1$:

Focal Length of Lens (output side), $F_2$:

Distance between the input waist and the input lens, $l$:

Amplification coefficient, $M'$: