Eckhaus Instability in Laser Cavities with Harmonically Swept Filters

Feng Li; Dongmei Huang; K. Nakkeeran; J. Nathan Kutz; Jinhui Yuan; P. K.A. Wai

doi:10.1109/JLT.2021.3104186

Eckhaus Instability in Laser Cavities with Harmonically Swept Filters

Feng Li, Dongmei Huang, K. Nakkeeran, J. Nathan Kutz, Jinhui Yuan, P. K.A. Wai

Research output: Journal article publication › Journal article › Academic research › peer-review

8 Citations (Scopus)

Abstract

In this paper, we report the existence of Eckhaus instability in laser cavities with harmonically swept filters, of which Fourier Domain Mode Locked (FDML) laser is an important example. We show that such laser cavities can be modeled by a real Ginzburg Landau equation with a frequency shifting term arisen from the cavity dispersion. We analytically derived a solution of the governing equation and analyzed its stability. We found that the cavity dispersion introduces a continuous frequency shift to the laser signal such that it will be eventually pushed outside the stable region and trigger the Eckhaus instability. We show that the repeated triggering of the Eckhaus instability in the laser cavities is the dominant effect that leads to the high frequency fluctuations in FDML laser output, which is the unique feature of such laser cavities and intrinsically limits the signal quality of the FDML lasers with nonzero cavity dispersion.

Original language	English
Pages (from-to)	6531-6538
Number of pages	8
Journal	Journal of Lightwave Technology
Volume	39
Issue number	20
DOIs	https://doi.org/10.1109/JLT.2021.3104186
Publication status	Published - 15 Oct 2021

Keywords

Eckhaus instability
Fourier domain mode locking
real Ginzburg Landau equation
swept laser

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

More information

10.1109/JLT.2021.3104186

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title = "Eckhaus Instability in Laser Cavities with Harmonically Swept Filters",

abstract = "In this paper, we report the existence of Eckhaus instability in laser cavities with harmonically swept filters, of which Fourier Domain Mode Locked (FDML) laser is an important example. We show that such laser cavities can be modeled by a real Ginzburg Landau equation with a frequency shifting term arisen from the cavity dispersion. We analytically derived a solution of the governing equation and analyzed its stability. We found that the cavity dispersion introduces a continuous frequency shift to the laser signal such that it will be eventually pushed outside the stable region and trigger the Eckhaus instability. We show that the repeated triggering of the Eckhaus instability in the laser cavities is the dominant effect that leads to the high frequency fluctuations in FDML laser output, which is the unique feature of such laser cavities and intrinsically limits the signal quality of the FDML lasers with nonzero cavity dispersion.",

keywords = "Eckhaus instability, Fourier domain mode locking, real Ginzburg Landau equation, swept laser",

author = "Feng Li and Dongmei Huang and K. Nakkeeran and Kutz, {J. Nathan} and Jinhui Yuan and Wai, {P. K.A.}",

note = "Funding Information: This work was supported in part by the National Key R&D Program of China under Grant 2019YFB1803904, in part by the Science, Technology, and Innovation Commission of Shenzhen Municipality underGrant SGDX2019081623060558, in part by the Research Grants Council, University Grants Committee of Hong Kong SAR under Grant PolyU152241/18E, and in part by Guangdong Basic and Applied Basic Research Foundation under Grant 2021A1515012544. Publisher Copyright: {\textcopyright} 1983-2012 IEEE.",

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AU - Li, Feng

AU - Huang, Dongmei

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AU - Yuan, Jinhui

AU - Wai, P. K.A.

N1 - Funding Information: This work was supported in part by the National Key R&D Program of China under Grant 2019YFB1803904, in part by the Science, Technology, and Innovation Commission of Shenzhen Municipality underGrant SGDX2019081623060558, in part by the Research Grants Council, University Grants Committee of Hong Kong SAR under Grant PolyU152241/18E, and in part by Guangdong Basic and Applied Basic Research Foundation under Grant 2021A1515012544. Publisher Copyright: © 1983-2012 IEEE.

PY - 2021/10/15

Y1 - 2021/10/15

N2 - In this paper, we report the existence of Eckhaus instability in laser cavities with harmonically swept filters, of which Fourier Domain Mode Locked (FDML) laser is an important example. We show that such laser cavities can be modeled by a real Ginzburg Landau equation with a frequency shifting term arisen from the cavity dispersion. We analytically derived a solution of the governing equation and analyzed its stability. We found that the cavity dispersion introduces a continuous frequency shift to the laser signal such that it will be eventually pushed outside the stable region and trigger the Eckhaus instability. We show that the repeated triggering of the Eckhaus instability in the laser cavities is the dominant effect that leads to the high frequency fluctuations in FDML laser output, which is the unique feature of such laser cavities and intrinsically limits the signal quality of the FDML lasers with nonzero cavity dispersion.

AB - In this paper, we report the existence of Eckhaus instability in laser cavities with harmonically swept filters, of which Fourier Domain Mode Locked (FDML) laser is an important example. We show that such laser cavities can be modeled by a real Ginzburg Landau equation with a frequency shifting term arisen from the cavity dispersion. We analytically derived a solution of the governing equation and analyzed its stability. We found that the cavity dispersion introduces a continuous frequency shift to the laser signal such that it will be eventually pushed outside the stable region and trigger the Eckhaus instability. We show that the repeated triggering of the Eckhaus instability in the laser cavities is the dominant effect that leads to the high frequency fluctuations in FDML laser output, which is the unique feature of such laser cavities and intrinsically limits the signal quality of the FDML lasers with nonzero cavity dispersion.

KW - Eckhaus instability

KW - Fourier domain mode locking

KW - real Ginzburg Landau equation

KW - swept laser

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JO - Journal of Lightwave Technology

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ER -

Eckhaus Instability in Laser Cavities with Harmonically Swept Filters

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