Modeling of one-dimensional cavities for large-area gain media

Bartosz Wasilewski; Krzysztof M. Abramski; Alan D. Colley; Howard J. Baker; Denis R. Hall

doi:10.1117/12.270250

Modeling of one-dimensional cavities for large-area gain media

Bartosz Wasilewski, Krzysztof M. Abramski, Alan D. Colley, Howard J. Baker, Denis R. Hall

School of Engineering & Physical Sciences

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

2 Citations (Scopus)

Abstract

We present a method and results of modeling of the large-area carbon-dioxide lasers, including gain saturation and dephasing effects. Numerical calculations are based on iterative evaluating of Fresnel-Kirchoff integral using fast convolution algorithm. ©2005 Copyright SPIE - The International Society for Optical Engineering.

Original language	English
Pages (from-to)	325-328
Number of pages	4
Journal	Proceedings of SPIE
Volume	3092
DOIs	https://doi.org/10.1117/12.270250
Publication status	Published - 1997
Event	XI International Symposium on Gas Flow and Chemical Lasers and High-Power Laser Conference - Edinburgh, United Kingdom Duration: 25 Aug 1996 → 25 Aug 1996

Keywords

Diffractive Optical Element (DOE) resonator
Graded Phase Mirror (GPM)
Laser resonator synthesis
Laser simulation
Modelling of lasers
Numerical modelling
Numerical simulation of lasers
Talbot resonator
Unstable resonator

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10.1117/12.270250

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title = "Modeling of one-dimensional cavities for large-area gain media",

abstract = "We present a method and results of modeling of the large-area carbon-dioxide lasers, including gain saturation and dephasing effects. Numerical calculations are based on iterative evaluating of Fresnel-Kirchoff integral using fast convolution algorithm. {\textcopyright}2005 Copyright SPIE - The International Society for Optical Engineering.",

keywords = "Diffractive Optical Element (DOE) resonator, Graded Phase Mirror (GPM), Laser resonator synthesis, Laser simulation, Modelling of lasers, Numerical modelling, Numerical simulation of lasers, Talbot resonator, Unstable resonator",

author = "Bartosz Wasilewski and Abramski, \{Krzysztof M.\} and Colley, \{Alan D.\} and Baker, \{Howard J.\} and Hall, \{Denis R.\}",

year = "1997",

doi = "10.1117/12.270250",

language = "English",

volume = "3092",

pages = "325--328",

journal = "Proceedings of SPIE",

issn = "1996-756X",

publisher = "SPIE",

note = "XI International Symposium on Gas Flow and Chemical Lasers and High-Power Laser Conference ; Conference date: 25-08-1996 Through 25-08-1996",

}

TY - JOUR

T1 - Modeling of one-dimensional cavities for large-area gain media

AU - Wasilewski, Bartosz

AU - Abramski, Krzysztof M.

AU - Colley, Alan D.

AU - Baker, Howard J.

AU - Hall, Denis R.

PY - 1997

Y1 - 1997

N2 - We present a method and results of modeling of the large-area carbon-dioxide lasers, including gain saturation and dephasing effects. Numerical calculations are based on iterative evaluating of Fresnel-Kirchoff integral using fast convolution algorithm. ©2005 Copyright SPIE - The International Society for Optical Engineering.

AB - We present a method and results of modeling of the large-area carbon-dioxide lasers, including gain saturation and dephasing effects. Numerical calculations are based on iterative evaluating of Fresnel-Kirchoff integral using fast convolution algorithm. ©2005 Copyright SPIE - The International Society for Optical Engineering.

KW - Diffractive Optical Element (DOE) resonator

KW - Graded Phase Mirror (GPM)

KW - Laser resonator synthesis

KW - Laser simulation

KW - Modelling of lasers

KW - Numerical modelling

KW - Numerical simulation of lasers

KW - Talbot resonator

KW - Unstable resonator

UR - https://www.scopus.com/pages/publications/55949123532

U2 - 10.1117/12.270250

DO - 10.1117/12.270250

M3 - Article

SN - 1996-756X

VL - 3092

SP - 325

EP - 328

JO - Proceedings of SPIE

JF - Proceedings of SPIE

T2 - XI International Symposium on Gas Flow and Chemical Lasers and High-Power Laser Conference

Y2 - 25 August 1996 through 25 August 1996

ER -

Modeling of one-dimensional cavities for large-area gain media

Abstract

Keywords

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