Optically controllable microlasers and 3D light confinement based on cavity solitons in vertical-cavity devices

T. Ackemann; N. Radwell; R. Jaeger

Optically controllable microlasers and 3D light confinement based on cavity solitons in vertical-cavity devices

T. Ackemann, N. Radwell, R. Jaeger

Research output: Contribution to conference › Paper

1 Citation (Scopus)

Abstract

Bistable microlasers in a broad-area vertical-cavity semiconductor laser with frequency-selective feedback are demonstrated. It is argued that mode-locking of these lasers provides a route to three-dimensional light confinement.

Language	English
Pages	134-135
Number of pages	2
Publication status	Published - 2009
Event	IEEE/LEOS Winter Topicals Meeting - Innsbruck, Austria Duration: 12 Jan 2009 → 14 Jan 2009

Conference

Conference	IEEE/LEOS Winter Topicals Meeting
Country	Austria
City	Innsbruck
Period	12/01/09 → 14/01/09

Fingerprint

locking

solitary waves

semiconductor lasers

routes

cavities

lasers

Keywords

semiconductor laser
microlasers
three-dimensional light confinement
3D

Cite this

Ackemann, T., Radwell, N., & Jaeger, R. (2009). Optically controllable microlasers and 3D light confinement based on cavity solitons in vertical-cavity devices. 134-135. Paper presented at IEEE/LEOS Winter Topicals Meeting, Innsbruck, Austria.

Ackemann, T. ; Radwell, N. ; Jaeger, R. / Optically controllable microlasers and 3D light confinement based on cavity solitons in vertical-cavity devices. Paper presented at IEEE/LEOS Winter Topicals Meeting, Innsbruck, Austria.2 p.

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title = "Optically controllable microlasers and 3D light confinement based on cavity solitons in vertical-cavity devices",

abstract = "Bistable microlasers in a broad-area vertical-cavity semiconductor laser with frequency-selective feedback are demonstrated. It is argued that mode-locking of these lasers provides a route to three-dimensional light confinement.",

keywords = "semiconductor laser, microlasers, three-dimensional light confinement , 3D",

author = "T. Ackemann and N. Radwell and R. Jaeger",

year = "2009",

language = "English",

pages = "134--135",

note = "IEEE/LEOS Winter Topicals Meeting ; Conference date: 12-01-2009 Through 14-01-2009",

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Ackemann, T, Radwell, N & Jaeger, R 2009, 'Optically controllable microlasers and 3D light confinement based on cavity solitons in vertical-cavity devices' Paper presented at IEEE/LEOS Winter Topicals Meeting, Innsbruck, Austria, 12/01/09 - 14/01/09, pp. 134-135.

Optically controllable microlasers and 3D light confinement based on cavity solitons in vertical-cavity devices. / Ackemann, T.; Radwell, N.; Jaeger, R.

2009. 134-135 Paper presented at IEEE/LEOS Winter Topicals Meeting, Innsbruck, Austria.

Research output: Contribution to conference › Paper

TY - CONF

T1 - Optically controllable microlasers and 3D light confinement based on cavity solitons in vertical-cavity devices

AU - Ackemann, T.

AU - Radwell, N.

AU - Jaeger, R.

PY - 2009

Y1 - 2009

N2 - Bistable microlasers in a broad-area vertical-cavity semiconductor laser with frequency-selective feedback are demonstrated. It is argued that mode-locking of these lasers provides a route to three-dimensional light confinement.

AB - Bistable microlasers in a broad-area vertical-cavity semiconductor laser with frequency-selective feedback are demonstrated. It is argued that mode-locking of these lasers provides a route to three-dimensional light confinement.

KW - semiconductor laser

KW - microlasers

KW - three-dimensional light confinement

KW - 3D

M3 - Paper

SP - 134

EP - 135

ER -

Ackemann T, Radwell N, Jaeger R. Optically controllable microlasers and 3D light confinement based on cavity solitons in vertical-cavity devices. 2009. Paper presented at IEEE/LEOS Winter Topicals Meeting, Innsbruck, Austria.