Three-dimensional modelling of high-power laser diodes based on the finite integration beam propagation method

Monika Niederhoff; Wolfgang Heinrich; Peter Russer

Three-dimensional modelling of high-power laser diodes based on the finite integration beam propagation method

Monika Niederhoff
, Wolfgang Heinrich
, Peter Russer

Ferdinand-Braun-Institut für Hochfrequenztechnik

Research output: Contribution to journal › Conference article › peer-review

1 Scopus citations

Abstract

A self-consistent three-dimensional method for modelling high-power laser diodes is presented, that is based on the finite integration beam propagation method (FIBPM). It allows the modelling of longitudinally inhomogeneous lasers, and takes into account the influence of the distributions of the injection current, the carrier density and the temperature profile. The method has been applied to various high-power laser diode structures. Simulation results have been verified by experimental data.

Original language	English
Pages (from-to)	1429-1432
Number of pages	4
Journal	IEEE MTT-S International Microwave Symposium Digest
Volume	3
State	Published - 1996
Externally published	Yes
Event	Proceedings of the 1996 IEEE MTT-S International Microwave Symposium Digest. Part 1 (of 3) - San Franscisco, CA, USA Duration: 17 Jun 1996 → 21 Jun 1996

Cite this

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title = "Three-dimensional modelling of high-power laser diodes based on the finite integration beam propagation method",

abstract = "A self-consistent three-dimensional method for modelling high-power laser diodes is presented, that is based on the finite integration beam propagation method (FIBPM). It allows the modelling of longitudinally inhomogeneous lasers, and takes into account the influence of the distributions of the injection current, the carrier density and the temperature profile. The method has been applied to various high-power laser diode structures. Simulation results have been verified by experimental data.",

author = "Monika Niederhoff and Wolfgang Heinrich and Peter Russer",

year = "1996",

language = "English",

volume = "3",

pages = "1429--1432",

journal = "IEEE MTT-S International Microwave Symposium Digest",

issn = "0149-645X",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

note = "Proceedings of the 1996 IEEE MTT-S International Microwave Symposium Digest. Part 1 (of 3) ; Conference date: 17-06-1996 Through 21-06-1996",

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TY - JOUR

T1 - Three-dimensional modelling of high-power laser diodes based on the finite integration beam propagation method

AU - Niederhoff, Monika

AU - Heinrich, Wolfgang

AU - Russer, Peter

PY - 1996

Y1 - 1996

N2 - A self-consistent three-dimensional method for modelling high-power laser diodes is presented, that is based on the finite integration beam propagation method (FIBPM). It allows the modelling of longitudinally inhomogeneous lasers, and takes into account the influence of the distributions of the injection current, the carrier density and the temperature profile. The method has been applied to various high-power laser diode structures. Simulation results have been verified by experimental data.

AB - A self-consistent three-dimensional method for modelling high-power laser diodes is presented, that is based on the finite integration beam propagation method (FIBPM). It allows the modelling of longitudinally inhomogeneous lasers, and takes into account the influence of the distributions of the injection current, the carrier density and the temperature profile. The method has been applied to various high-power laser diode structures. Simulation results have been verified by experimental data.

UR - https://www.scopus.com/pages/publications/0029714953

M3 - Conference article

AN - SCOPUS:0029714953

SN - 0149-645X

VL - 3

SP - 1429

EP - 1432

JO - IEEE MTT-S International Microwave Symposium Digest

JF - IEEE MTT-S International Microwave Symposium Digest

T2 - Proceedings of the 1996 IEEE MTT-S International Microwave Symposium Digest. Part 1 (of 3)

Y2 - 17 June 1996 through 21 June 1996

ER -

Three-dimensional modelling of high-power laser diodes based on the finite integration beam propagation method

Abstract

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