Optics Calculator

This Calculator Will Help You To calculate The Diffracted Angle For A Given Incidence Angle and The Littrow Angle of Reflective Gratings.

$m\lambda$=$\frac{[ sin(\theta_m) + sin(\theta_i)]}{N}$
$\theta$=arcsin$\frac{N m \lambda}{2}$

Raster Line Density $N$; Incidence Angle $\theta_i$; Order $m$; Wavelength $\lambda$; Diffracted Angle $\theta_m$; Littrow Angle $\theta$;

If m is negative, it means that the diffracted light and diffracted light are on the same side of the normal. If m is positive, it means that the diffracted light and diffracted light are on the opposite side of the normal.

Input

Raster Line Density, $N$:

1/mm

Incidence Angle, $\theta_i$:

degree (°)

Order, $m$:

Wavelength, $\lambda$:

Output

Diffracted Angle, $\theta_m$:

degree (°)

Littrow Angle, $\theta$:

degree (°)

Diffracted Angle and Littrow Angle of Reflective Gratings

$m\lambda$=$\frac{[ sin(\theta_m) + sin(\theta_i)]}{N}$

$\theta$=arcsin$\frac{N m \lambda}{2}$

Raster Line Density, $N$:

Incidence Angle, $\theta_i$:

Order, $m$:

Wavelength, $\lambda$:

Diffracted Angle, $\theta_m$:

Littrow Angle, $\theta$: