Intracavity dynamics in high-power mode-locked ﬁber lasers

Brandon Bale; Sonia A. Boscolo; J. Nathan Kutz; Sergei K. Turitsyn

doi:10.1103/PhysRevA.81.033828

Intracavity dynamics in high-power mode-locked ﬁber lasers

Brandon Bale, Sonia A. Boscolo, J. Nathan Kutz, Sergei K. Turitsyn

Aston Institute of Photonic Technologies (AiPT)

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

Abstract

A theoretical model is developed which characterizes the intracavity pulse evolutions in high-power fiber lasers. It is shown that experimentally observed dynamics of the key pulse parameters can be described by a reduced model of ordinary differential equations. Critical in driving the intracavity dynamics is the amplitude and phase modulations generated by the discrete elements in the laser. The theory gives a simple geometrical description of the intracavity dynamics and possible operation modes of the laser cavity. Furthermore, it provides a simple and efficient method for optimizing the performance of complex multiparametric laser systems.

Original language	English
Article number	033828
Number of pages	9
Journal	Physical Review A
Volume	81
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevA.81.033828
Publication status	Published - 16 Mar 2010

Keywords

intracavity pulse evolutions
high-power fiber lasers
key pulse parameters
reduced model of ordinary differential equations
intracavity dynamics
multiparametric laser systems

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10.1103/PhysRevA.81.033828

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title = "Intracavity dynamics in high-power mode-locked ﬁber lasers",

abstract = "A theoretical model is developed which characterizes the intracavity pulse evolutions in high-power fiber lasers. It is shown that experimentally observed dynamics of the key pulse parameters can be described by a reduced model of ordinary differential equations. Critical in driving the intracavity dynamics is the amplitude and phase modulations generated by the discrete elements in the laser. The theory gives a simple geometrical description of the intracavity dynamics and possible operation modes of the laser cavity. Furthermore, it provides a simple and efficient method for optimizing the performance of complex multiparametric laser systems.",

keywords = "intracavity pulse evolutions, high-power fiber lasers, key pulse parameters, reduced model of ordinary differential equations, intracavity dynamics, multiparametric laser systems",

author = "Brandon Bale and Boscolo, {Sonia A.} and Kutz, {J. Nathan} and Turitsyn, {Sergei K.}",

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doi = "10.1103/PhysRevA.81.033828",

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AU - Bale, Brandon

AU - Boscolo, Sonia A.

AU - Kutz, J. Nathan

AU - Turitsyn, Sergei K.

PY - 2010/3/16

Y1 - 2010/3/16

N2 - A theoretical model is developed which characterizes the intracavity pulse evolutions in high-power fiber lasers. It is shown that experimentally observed dynamics of the key pulse parameters can be described by a reduced model of ordinary differential equations. Critical in driving the intracavity dynamics is the amplitude and phase modulations generated by the discrete elements in the laser. The theory gives a simple geometrical description of the intracavity dynamics and possible operation modes of the laser cavity. Furthermore, it provides a simple and efficient method for optimizing the performance of complex multiparametric laser systems.

AB - A theoretical model is developed which characterizes the intracavity pulse evolutions in high-power fiber lasers. It is shown that experimentally observed dynamics of the key pulse parameters can be described by a reduced model of ordinary differential equations. Critical in driving the intracavity dynamics is the amplitude and phase modulations generated by the discrete elements in the laser. The theory gives a simple geometrical description of the intracavity dynamics and possible operation modes of the laser cavity. Furthermore, it provides a simple and efficient method for optimizing the performance of complex multiparametric laser systems.

KW - intracavity pulse evolutions

KW - high-power fiber lasers

KW - key pulse parameters

KW - reduced model of ordinary differential equations

KW - intracavity dynamics

KW - multiparametric laser systems

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DO - 10.1103/PhysRevA.81.033828

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VL - 81

JO - Physical Review A

JF - Physical Review A

IS - 3

M1 - 033828

ER -

Intracavity dynamics in high-power mode-locked ﬁber lasers

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Keywords

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