Beam shaping using Gaussian beam modes

John Lavelle; Créidhe O'Sullivan

doi:10.1364/JOSAA.27.000350

Journal of the Optical Society of America A
Vol. 27,
Issue 2,
pp. 350-357
(2010)
•https://doi.org/10.1364/JOSAA.27.000350

Beam shaping using Gaussian beam modes

John Lavelle and Créidhe O’Sullivan

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John Lavelle and Créidhe O'Sullivan, "Beam shaping using Gaussian beam modes," J. Opt. Soc. Am. A 27, 350-357 (2010)

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Abstract

A beam shaping method is presented where a diffractive optical element (DOE) is designed by optimizing the complex mode coefficient weights of a set of Gaussian beam modes. This method is compared with the more standard unidirectional approach. Differential evolution is used for the optimization in both the unidirectional and Gaussian beam mode optimization methods. For the particular transforms carried out, the Gaussian beam mode set optimization (GBMSO) approach achieved more optimal solutions. The GBMSO approach is extended to design DOEs that control the amplitude distribution of a beam at multiple planes, rather than at just a single plane (i.e., the far field).

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Equations (19)

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$rect ()$ Function Radius	Unidirectional		GBMSO
$rect ()$ Function Radius	MSE	PC	MSE	PC
1°	0.001646	0.908	0.001474	0.917
10°	0.000611	0.965	0.000263	0.985

$rect ()$ Function Radius	Initialization Range (mm)			Optimization Result (mm)
$rect ()$ Function Radius	$w_{0}$	w	z	$w_{0}$	w	z
1°	$47 \to 220$	$47 \to 220$	$0 \to 25, 342$	90.4	107.5	5500.8
10°	$7.5 \to 22.5$	$47 \to 141$	$364.4 \to 3280$	11.6	55.4	661.0

$rect ()$ Function Radius	Unidirectional		GBMSO
$rect ()$ Function Radius	MSE	PC	MSE	PC
1°	0.001646	0.908	0.001474	0.917
10°	0.000611	0.965	0.000263	0.985

$rect ()$ Function Radius	Initialization Range (mm)			Optimization Result (mm)
$rect ()$ Function Radius	$w_{0}$	w	z	$w_{0}$	w	z
1°	$47 \to 220$	$47 \to 220$	$0 \to 25, 342$	90.4	107.5	5500.8
10°	$7.5 \to 22.5$	$47 \to 141$	$364.4 \to 3280$	11.6	55.4	661.0

Abstract

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Equations (19)

Journal of the Optical Society of America A