Bifurcation analysis of a semiconductor laser subject to non-instantaneous phase-conjugate feedback

K. Green; B. Krauskopf

doi:10.1016/j.optcom.2003.12.026

Bifurcation analysis of a semiconductor laser subject to non-instantaneous phase-conjugate feedback

K. Green
, B. Krauskopf

Quantum Metrology & Laser Applications

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

We consider how the behaviour of a semiconductor laser subject to phase-conjugate feedback depends on the interaction time of the phase-conjugating mirror. We employ continuation techniques to show how the bifurcation diagram in the plane of feedback strength versus pump current changes as the interaction time of the mirror is increased. This shows that for interaction times below 0.1 ns the assumption of instantaneous feedback is justified. On the other hand, we show that increasingly larger interaction times lead to considerable changes in the size and qualitative structure of the locking region. Our study provides a more global view of the suppression of complicated and chaotic dynamics. © 2003 Elsevier B.V. All rights reserved.

Original language	English
Pages (from-to)	383-393
Journal	Optics Communications
Volume	231
Issue number	1-6
DOIs	https://doi.org/10.1016/j.optcom.2003.12.026
Publication status	Published - 2004

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Bifurcation analysis of a semiconductor laser subject to non-instantaneous phase-conjugate feedback

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SDG 7 Affordable and Clean Energy

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10.1016/j.optcom.2003.12.026

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title = "Bifurcation analysis of a semiconductor laser subject to non-instantaneous phase-conjugate feedback",

abstract = "We consider how the behaviour of a semiconductor laser subject to phase-conjugate feedback depends on the interaction time of the phase-conjugating mirror. We employ continuation techniques to show how the bifurcation diagram in the plane of feedback strength versus pump current changes as the interaction time of the mirror is increased. This shows that for interaction times below 0.1 ns the assumption of instantaneous feedback is justified. On the other hand, we show that increasingly larger interaction times lead to considerable changes in the size and qualitative structure of the locking region. Our study provides a more global view of the suppression of complicated and chaotic dynamics. {\textcopyright} 2003 Elsevier B.V. All rights reserved.",

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N2 - We consider how the behaviour of a semiconductor laser subject to phase-conjugate feedback depends on the interaction time of the phase-conjugating mirror. We employ continuation techniques to show how the bifurcation diagram in the plane of feedback strength versus pump current changes as the interaction time of the mirror is increased. This shows that for interaction times below 0.1 ns the assumption of instantaneous feedback is justified. On the other hand, we show that increasingly larger interaction times lead to considerable changes in the size and qualitative structure of the locking region. Our study provides a more global view of the suppression of complicated and chaotic dynamics. © 2003 Elsevier B.V. All rights reserved.

AB - We consider how the behaviour of a semiconductor laser subject to phase-conjugate feedback depends on the interaction time of the phase-conjugating mirror. We employ continuation techniques to show how the bifurcation diagram in the plane of feedback strength versus pump current changes as the interaction time of the mirror is increased. This shows that for interaction times below 0.1 ns the assumption of instantaneous feedback is justified. On the other hand, we show that increasingly larger interaction times lead to considerable changes in the size and qualitative structure of the locking region. Our study provides a more global view of the suppression of complicated and chaotic dynamics. © 2003 Elsevier B.V. All rights reserved.

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DO - 10.1016/j.optcom.2003.12.026

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VL - 231

SP - 383

EP - 393

JO - Optics Communications

JF - Optics Communications

IS - 1-6

ER -

Bifurcation analysis of a semiconductor laser subject to non-instantaneous phase-conjugate feedback

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