Tailoring of spatial coherence in a multimode fiber by selectively exciting groups of eigenmodes

Ma, Rui; Zhang, Hua Hui; Manuylovich, Egor; Sugavanam, Srikanth; Wu, Han; Zhang, Wei Li; Dvoyrin, Vladislav; Hu, Tao; Hu, Zhijia; Rao, Yu; Turitsyn, Sergei K.

doi:10.1364/oe.394350

Cited by 6 publications

(1 citation statement)

References 27 publications

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“…RDFLs have attracted much attention in recent years due to their distinctive operating principle. Existing research on RDFLs can be categorized into topics such as power/brightness enhancement [4][5][6][7] , spectral manipulation [8][9][10] , temporal modulation [11,12] , and transverse mode control [13,14] . These advances have led to practical applications of RDFLs in sensing [15][16][17] , communication [18,19] , imaging [20,21] , and nonlinear frequency conversion [22,23] .…”

Section: Introductionmentioning

confidence: 99%

2 kW random fiber laser based on hybrid Yb-Raman gain [Invited]

Ye,

Zhang,

Liang

et al. 2023

中国光学快报

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High-power operation is one of the most important research topics surrounding random fiber lasers (RDFLs). Here we optimized the cavity structure and proposed a new scheme based on hybrid gain to address the issue of high-power backward light in traditional kilowatt-level RDFLs. Consequently, a record power of 1972 W was achieved while the maximum backward leaked power only reached 0.12 W. The conversion efficiency relative to the laser diode pump power was 68.4%, and the highest spectral purity of the random lasing reached 98.1%. This work may provide a reference for high-power RDFLs, Raman fiber lasers, and long-wavelength Yb-doped fiber lasers.

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Section: Introductionmentioning

confidence: 99%

2 kW random fiber laser based on hybrid Yb-Raman gain [Invited]

Ye,

Zhang,

Liang

et al. 2023

中国光学快报

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show abstract

Wavelength-dependent speckle multiplexing for imaging through opacity

Zhao

Wang

et al. 2021

Optics and Lasers in Engineering

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Decoherence of fiber light sources using a single-trench fiber*

Zhang¹,

Zhang²,

Wang³

et al. 2020

Chinese Phys. B

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Decoherence of fiber laser sources is of great importance in imaging applications, and most current studies use ordinary multi-mode fibers (MMFs). Here, a newly designed single-trench fiber (STF) is investigated to reduce the spatial coherence of fiber light source and compared with MMFs. By bending two fibers with different turns, speckle contrast of a 0.8-m-long STF can be reduced from 0.13 to 0.08, while a 0.8-m-long MMF shows an inverse result. Through speckle contrast and decoupling-mode analysis, the reason of this inverse trend is revealed. Firstly, the STF supports more modes than the MMF due to its larger core diameter. Secondly, mode leak from the first core of the STF can couple to the second core when bending the STF. Thus, power distribution among high and low-order modes become more even, reducing the spatial coherence considerably. However, in the MMF, high-order modes become leaky modes and decrease slightly when bending the fiber. This work provides a new method to modulate coherence of light source and a new angle to study decoherence principle using special fibers.

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Tailoring of spatial coherence in a multimode fiber by selectively exciting groups of eigenmodes

Cited by 6 publications

References 27 publications

2 kW random fiber laser based on hybrid Yb-Raman gain [Invited]

2 kW random fiber laser based on hybrid Yb-Raman gain [Invited]

Wavelength-dependent speckle multiplexing for imaging through opacity

Decoherence of fiber light sources using a single-trench fiber*

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