Rayleigh length

Gaussian beam width

w(z)

as a function of the axial distance

z

.

w_0

: beam waist;

b

: confocal parameter;

z_\mathrm{R}

: Rayleigh length;

\Theta

: total angular spread

In optics and especially laser science, the Rayleigh length or Rayleigh range is the distance along the propagation direction of a beam from the waist to the place where the area of the cross section is doubled.^[1] A related parameter is the confocal parameter, b, which is twice the Rayleigh length.^[2] The Rayleigh length is particularly important when beams are modeled as Gaussian beams.

Explanation

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z_\mathrm{R} = \frac{\pi w_0^2}{\lambda} ,

where $\lambda$ is the wavelength and $w_0$ is the beam waist, the radial size of the beam at its narrowest point. This equation and those that follow assume that the waist is not extraordinarily small; $w_0 \ge 2\lambda/\pi$ .^[3]

The radius of the beam at a distance $z$ from the waist is ^[4]

w(z) = w_0 \, \sqrt{ 1+ {\left( \frac{z}{z_\mathrm{R}} \right)}^2 } .

The minimum value of $w(z)$ occurs at $w(0) = w_0$ , by definition. At distance $z_\mathrm{R}$ from the beam waist, the beam radius is increased by a factor $\sqrt{2}$ and the cross sectional area by 2.

Related quantities

The total angular spread of a Gaussian beam in radians is related to the Rayleigh length by^[1]

\Theta_{\mathrm{div}} \simeq 2\frac{w_0}{z_R}.

The diameter of the beam at its waist (focus spot size) is given by

D = 2\,w_0 \simeq \frac{4\lambda}{\pi\, \Theta_{\mathrm{div}}}

.

These equations are valid within the limits of the paraxial approximation. For beams with much larger divergence the Gaussian beam model is no longer accurate and a physical optics analysis is required.

References

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↑ Siegman (1986) p. 630.
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Rayleigh length RP Photonics Encyclopedia of Optics

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[3] Siegman (1986) p. 630.

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[1]

[2]

[3]

[4]

Rayleigh length

Contents

Explanation

Related quantities

See also

References

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