Tunable fiber laser based on the refractive index characteristic of MMI effects

Ma, Lin; Qi, Yanhui; Kang, Zexin; Bai, Ya; Jian, Shuisheng

doi:10.1016/j.optlastec.2013.10.001

Cited by 33 publications

(12 citation statements)

References 14 publications

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“…Besides, most of the sensors were applied to monitor the resonance wavelength. The sensitivity represented in the previous paper was about 274 nm/RIU in the RI range from 1.333 to 1.427 [18]. When the length of the NCF is as short as hundreds of microns, the transmission spectrum proximately exhibits a straight line monitored by the OSA.…”

Section: Introductionmentioning

confidence: 83%

Highly sensitive bending sensor based on multimode–multimode–coreoffset fiber structure

Sun

et al. 2015

Optics & Laser Technology

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Section: Introductionmentioning

confidence: 83%

Highly sensitive bending sensor based on multimode–multimode–coreoffset fiber structure

Sun

et al. 2015

Optics & Laser Technology

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“…In other words,

can be altered optically only for smaller values of

, that is, for thin MMFs. Indeed, if the diameter of the MMF is reduced, two effects contribute to make the evanescent penetration deeper overall: If

is reduced, the second term in Equation (10) becomes significant and, at the same time, the confinement factor decreases due to the smaller core, thus giving rise to longer evanescent tails [ 18 , 19 , 20 ]. Based on this, a typical approach to enhance the sensitivity to the surroundings relies on either tapering or etching down the MMF diameter to produce longer evanescent tails, as will become evident later.…”

Section: Mmi-based Fiber-optic Sensorsmentioning

confidence: 99%

Optical Sensing Using Fiber-Optic Multimode Interference Devices: A Review of Nonconventional Sensing Schemes

Guzmán-Sepúlveda

Guzmán-Cabrera

Castillo-Guzman

2021

Sensors

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We review fiber-based multimode interference (MMI) devices with a particular focus on optical fiber-based sensing applications. The present review complements a recently published, extensive review where the sensing of conventional physical variables such as refractive index, temperature, displacement, and strain was covered. This review focuses on MMI fiber sensors for nonconventional physical variables, including mechanical, electromagnetic, chemical, and optical, covering around fifteen years of work in the field. Finally, by the end of this paper, we also review some new trends of MMI-based schemes based on polymer fibers, for wavelength-locking applications, for retrieving the thermo-optic coefficient of liquid samples, and for measuring the dynamics of complex fluids.

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“…Previously, tunable laser operation can be achieved by mode-selection using thin film filter, acousto-optic tunable filter in laser resonators [4], [5]. However, as to increase the compactness and reduce intracavity loss, fiber filters are used, such as fiber Bragg gratings (FBGs) [6], [7], high birefringence (HiBi) Sagnac interferometers [8], [9] and Mach-Zehnder interferometers (MZIs) [10], [11]. Wavelength tuning ability of the FBG is determined by its strain characteristics.…”

Section: Introductionmentioning

confidence: 99%

“…Laser stability of using the high birefringence (HiBi) Sagnac interferometers needs to be improved due to the dimension of the interference ring is relatively complex for integration. As for the MZI, the length of the two interference arms should to be precisely controlled [9]. Nonlinear effects in optical fibers could also be used for tunable laser mode-selection in fiber laser cavities, such as stimulated Brillouin scattering (SBS) [2], nonlinear polarization rotation (NPR) and Four-Wave mixing (FWM), etc [1], [10].…”

Section: Introductionmentioning

confidence: 99%

Optical Property of Polarization-Maintaining Fiber Taper for Tunable Multi-Wavelength Fiber Laser Generation

et al. 2020

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We investigate optical property of polarization-maintaining fiber taper (PMFT) for tunable multi-wavelength laser generation in a fiber ring cavity. A panda-type polarization fiber is fused and tapered into a fiber taper with a diameter of about 2.5 μm. Optical and thermal properties of the PMFT are investigated theoretically and experimentally. As combined with a polarization dependent isolator, tunable multi-wavelength fiber laser operation is achieved by controlling of polarization-dependent loss in the fiber ring cavity. The laser wavelength number can be switched from 1 to 4. The 3 dB bandwidths of laser spectra are less than 0.05 nm for all wavelength numbers, with a maximum OSNR of about 54 dB. For single-wavelength laser operation near 1561.66 nm, the measured wavelength and power fluctuations are < 0.02 nm and 0.4 dB, respectively.

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Tunable fiber laser based on the refractive index characteristic of MMI effects

Cited by 33 publications

References 14 publications

Highly sensitive bending sensor based on multimode–multimode–coreoffset fiber structure

Highly sensitive bending sensor based on multimode–multimode–coreoffset fiber structure

Optical Sensing Using Fiber-Optic Multimode Interference Devices: A Review of Nonconventional Sensing Schemes

Optical Property of Polarization-Maintaining Fiber Taper for Tunable Multi-Wavelength Fiber Laser Generation

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