Single-mode Brillouin fiber laser passively stabilized at resonance frequency with self-injection locked pump laser

Spirin, V. V.; López-Mercado, César A.; Mégret, Patrice; Fotiadi, Andrei A.

doi:10.7452/lapl.201110138

Cited by 68 publications

(28 citation statements)

References 14 publications

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“…Such solutions are of particular interest for RF-generation and Brillouin sensing, since the same fiber configuration is able to generate additional waves, providing very high stability in the differences between the generating frequencies [8,12]. The transfer characteristics of the fiber cavities used in different configurations are altered and the minimal laser linewidth is as well varying from tens of kHz [11] down to hundreds of Hz [13]. However, the effect of the fiber cavity characteristics on the efficiency of self-injection locking in DFB laser has not been investigated, yet.…”

Section: Introductionmentioning

confidence: 98%

“…A huge Q-factor of cavities used in such systems ( $ 10 11 ) is not flexible for tuning. Alternatively, all-fiber cavity approach based on long, but relatively low-Q-factor cavities (Fabry-Perot [7] or ring ones [12,13]) is able to provide the similar laser linewidth employing low-cost fiber configuration built from standard telecom components. Such solutions are of particular interest for RF-generation and Brillouin sensing, since the same fiber configuration is able to generate additional waves, providing very high stability in the differences between the generating frequencies [8,12].…”

Section: Introductionmentioning

confidence: 99%

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Locking of the DFB laser through fiber optic resonator on different coupling regimes

López-Mercado

Spirin

Escobedo

et al. 2016

Optics Communications

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Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Locking of the DFB laser through fiber optic resonator on different coupling regimes

López-Mercado

Spirin

Escobedo

et al. 2016

Optics Communications

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“…To provide the DFB laser locking, a part of the optical radiation emitted by the DFB laser is passed through the filtering in a fiber ring resonator and returned into the laser cavity. This low-cost all-fiber solution allows achieving the laser linewidth as narrow as 500 Hz [36].…”

Section: Introductionmentioning

confidence: 99%

“…In our previous works, we have demonstrated substantial narrowing of the laser linewidth due to a spectrally selective feedback realized with FORR built from low-cost standard fiber telecom components [35][36][37]. To provide the DFB laser locking, a part of the optical radiation emitted by the DFB laser is passed through the filtering in a fiber ring resonator and returned into the laser cavity.…”

Section: Introductionmentioning

confidence: 99%

Fiber Laser for Phase-Sensitive Optical Time-Domain Reflectometry

Spirin¹,

López-Mercado²,

Mégret³

et al. 2018

Selected Topics on Optical Fiber Technologies and Applications

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We have designed a new fiber laser configuration with an injection-locked DFB laser applicable for phase-sensitive optical time-domain reflectometry. A low-loss fiber optical ring resonator (FORR) is used as a high finesse filter for the self-injection locking of the DFB (IL-DFB) laser. By varying the FORR fidelity, we have compared the DFB laser locking with FORR operating in the under-coupled, critically coupled, and over-coupled regimes. The critical coupling provides better frequency locking and superior narrowing of the laser linewidth. We have demonstrated that the locked DFB laser generates a single-frequency radiation with a linewidth less than 2.5 kHz if the FORR operates in the critically coupled regime. We have employed new IL-DFB laser configuration operating in the critical coupling regime for detection and localization of the perturbations in phase-sensitive OTDR system. The locked DFB laser with a narrow linewidth provides reliable long-distance monitoring of the perturbations measured through the moving differential processing algorithm. The IL-DFB laser delivers accurate localization of the vibrations with a frequency as low as~50 Hz at a distance of 9270 m providing the same signal-to-noise ratio that is achievable with an expensive ultra-narrow linewidth OEwaves laser (OE4020-155000-PA-00).

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“…It can also be used as a seed laser to create the excellent microwave signal or as an optical frequency standard to measure the unknown light frequency accurately [1][2][3][4]. Up to now, several techniques are reported to realize SLM fiber laser, such as saturable absorber [5][6][7], short cavity [1,4,[8][9], mode selection elements [10][11], passive multiple ring cavities [12], or self-injection feedback [13] and so on. The 3dB linewidth of the laser can be compressed to ~1-2 kHz by using the above mentioned methods.…”

Section: Introductionmentioning

confidence: 99%

Ultra-narrow linewidth fiber laser with self-injection feedback based on Rayleigh backscattering

2014

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Abstract-A single longitudinal mode fiber laser with ultra-narrow linewidth based on self-injection feedback by using the linewidth compress mechanism of Rayleigh backscattering (RBS) are proposed and demonstrated. Since the linewidth of RBS is narrower than that of the incident light in optical fibers and they have the same centre wavelength, the RBS can act as a mechanism to compress the linewidth of the incident light in fiber ring laser. In addition, more RBS signal could be collected to help further compress the laser linewidth besides the free spectral range is expanded when the self-injection feedback method is used. Our experimental results show that the side-mode suppression ratio of our laser is up to 75dB and the laser linewidth could be low to ~130Hz.Index Terms-fiber laser, single longitudinal mode, ultra-narrow linewidth, self-injection feedback, Rayleigh backscattering.

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Single-mode Brillouin fiber laser passively stabilized at resonance frequency with self-injection locked pump laser

Cited by 68 publications

References 14 publications

Locking of the DFB laser through fiber optic resonator on different coupling regimes

Locking of the DFB laser through fiber optic resonator on different coupling regimes

Fiber Laser for Phase-Sensitive Optical Time-Domain Reflectometry

Ultra-narrow linewidth fiber laser with self-injection feedback based on Rayleigh backscattering

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