Controllable coherent backscattering of light in disordered media filled with liquid crystal

José Trull; Marc Cuevas; Josep Salud; Crina Cojocaru; David O. López

doi:10.1364/OL.43.002300

Optics Letters
Vol. 43,
Issue 10,
pp. 2300-2303
(2018)
•https://doi.org/10.1364/OL.43.002300

Controllable coherent backscattering of light in disordered media filled with liquid crystal

José Trull, Marc Cuevas, Josep Salud, Crina Cojocaru, and David O. López

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José Trull, Marc Cuevas, Josep Salud, Crina Cojocaru, and David O. López, "Controllable coherent backscattering of light in disordered media filled with liquid crystal," Opt. Lett. 43, 2300-2303 (2018)

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Abstract

We have investigated multiple scattering of light in a disordered system based on liquid crystals for a temperature-controllable random laser. Coherent backscattering measurements at several temperatures have been well fitted by the theoretical model deduced for a random collection of spherical point scatters based on a diffusion approximation. The transport mean free path exclusively depends on the diffusivity of the liquid crystalline phase of the hybrid scattering system. It is shown how the laser threshold excitation intensity is strongly correlated with the transport mean free path.

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	SmB (313 K)	SmA (325 K)	N (337 K)
$k ℓ$ ^a	294	653	1778
$ℓ (μm)$ ^b	25	55	138
$k ℓ$ ^c	330	590	1547
$ℓ (μm)$ ^b	28	50	131
$k ℓ$ ^d	208	459	1312
$ℓ (μm)$ ^b	18	39	111
$R$ ^d	0.59	0.47	0.46

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Optics Letters