The Gaussian wave solution of Maxwell's equations and the validity of scalar wave approximation

P. Varga; P. Török

doi:10.1016/S0030-4018(98)00092-3

The Gaussian wave solution of Maxwell's equations and the validity of scalar wave approximation

P. Varga^*, P. Török

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

84 Citations (Scopus)

Abstract

We present an exact solution of Maxwell's equations for a non-paraxial Gaussian wave. Paraxial vectorial and paraxial scalar approximations of the exact solution are also obtained. We examine in detail, via several numerical examples, the validity conditions for the paraxial scalar and paraxial vectorial approximations when compared to the exact solution. Our findings show that when the half width of the beam waist is greater than 10λ the paraxial scalar approximation yields accurate results. When, however, the half width of the beam waist is comparable to the wavelength the exact solution predicts significant deviations from the paraxial scalar approximation. These results might prove important in semiconductor laser research.

Original language	English
Pages (from-to)	108-118
Number of pages	11
Journal	Optics Communications
Volume	152
Issue number	1-3
DOIs	https://doi.org/10.1016/S0030-4018(98)00092-3
Publication status	Published - Jun 15 1998
Externally published	Yes

ASJC Scopus Subject Areas

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Physical and Theoretical Chemistry
Electrical and Electronic Engineering

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10.1016/S0030-4018(98)00092-3

Cite this

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abstract = "We present an exact solution of Maxwell's equations for a non-paraxial Gaussian wave. Paraxial vectorial and paraxial scalar approximations of the exact solution are also obtained. We examine in detail, via several numerical examples, the validity conditions for the paraxial scalar and paraxial vectorial approximations when compared to the exact solution. Our findings show that when the half width of the beam waist is greater than 10λ the paraxial scalar approximation yields accurate results. When, however, the half width of the beam waist is comparable to the wavelength the exact solution predicts significant deviations from the paraxial scalar approximation. These results might prove important in semiconductor laser research.",

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AU - Varga, P.

AU - Török, P.

PY - 1998/6/15

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N2 - We present an exact solution of Maxwell's equations for a non-paraxial Gaussian wave. Paraxial vectorial and paraxial scalar approximations of the exact solution are also obtained. We examine in detail, via several numerical examples, the validity conditions for the paraxial scalar and paraxial vectorial approximations when compared to the exact solution. Our findings show that when the half width of the beam waist is greater than 10λ the paraxial scalar approximation yields accurate results. When, however, the half width of the beam waist is comparable to the wavelength the exact solution predicts significant deviations from the paraxial scalar approximation. These results might prove important in semiconductor laser research.

AB - We present an exact solution of Maxwell's equations for a non-paraxial Gaussian wave. Paraxial vectorial and paraxial scalar approximations of the exact solution are also obtained. We examine in detail, via several numerical examples, the validity conditions for the paraxial scalar and paraxial vectorial approximations when compared to the exact solution. Our findings show that when the half width of the beam waist is greater than 10λ the paraxial scalar approximation yields accurate results. When, however, the half width of the beam waist is comparable to the wavelength the exact solution predicts significant deviations from the paraxial scalar approximation. These results might prove important in semiconductor laser research.

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The Gaussian wave solution of Maxwell's equations and the validity of scalar wave approximation

Abstract

ASJC Scopus Subject Areas

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