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Paper detail

Intensity $g^{(2)}$-correlations in random fiber lasers: A random matrix theory approach

We propose a new approach based on random matrix theory to calculate the temporal second-order intensity correlation function $g^{(2)}(t)$ of the radiation emitted by random lasers and random fiber lasers. The multimode character of these systems, with a relevant degree of disorder in the active medium, and large number of random scattering centers substantially hinder the calculation of $g^{(2)}(t)$. Here we apply for the first time in a photonic system the universal statistical properties of Ginibre's non-Hermitian random matrix ensemble to obtain $g^{(2)}(t)$. Excellent agreement is found with time-resolved measurements for several excitation powers of an erbium-based random fiber laser. We also discuss the extension of the random matrix approach to address the statistical properties of general disordered photonic systems with various Hamiltonian symmetries.

preprint2022arXivOpen access
Ernesto P. RaposoIván R. R. GonzálesEdwin D. CoronelAntônio M. S. MacêdoLeonardo de S. MenezesRaman KashyapAnderson S. L. GomesRobin Kaiser
physics.opticsphysics.data-an
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Ernesto P. RaposoIván R. R. GonzálesEdwin D. CoronelAntônio M. S. MacêdoLeonardo de S. MenezesRaman KashyapAnderson S. L. GomesRobin Kaiser

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