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#7405. Recent advances and applications of random lasers and random fiber lasers

October 2026	publication date
Proposal available till	17-05-2025
4 total number of authors per manuscript	0 $

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Journal’s subject area:

Statistical and Nonlinear Physics; Electrical and Electronic Engineering; Atomic and Molecular Physics, and Optics; Electronic, Optical and Magnetic Materials;

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Abstract:
Random Lasers (RLs) and Random Fiber Lasers (RFLs) have been the subject of intense research since their first experimental demonstration. These low coherence light sources rely on multiple scattering of light to provide optical feedback in a medium combining a properly excited gain material and a scattering disordered structure. In this review paper, we initially describe the basic theoretical framework supporting laser emission due to feedback in disordered structures. We then provide an updated vision of the types of RLs and RFLs that have been demonstrated and reported, from dyes solutions embedded with nano/submicron-scatterers composites to rare-earth doped micro or nanocrystals and random fiber Bragg gratings as the scattering structure.
Keywords:
Intensity fluctuations; Multiple scattering of light; Photonic phase-transitions; Random fiber laser; Random laser; Replica symmetry breaking

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