Sun Yuchao scite author profile

We have researched the relationship between the luminescence properties, concentration changes, particle size of fluorescent particles and the additional scattering particles, and the random lasing threshold of a new disorder media. Maxwell equations and the rate equations are solved by using the finite difference time domain (FDTD) method directly. We calculate the emission line and the dependence of lasing threshold on the concentration. When Rh6G-SiO2 occupies 4wt% of the sample, the threshold is 8.5μJ/pulse; the impact of the added small scatterers TiO 2 on random laser emission is such little that it could be negligible. In addition, the lasing threshold properties of random media under different condition are calculated, and the impact of these factors on the random laser emission is proposed. Finally, the variation of the concentration of fluorescence particles has little influence on random lasing threshold which is immune to external addition of scatterers.

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Manufacture of SPASER Amplifier with Metal-Insulator-Metal Structure

Li¹,

Zhu²,

Niu³

et al. 2012

光学学报

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An ammonia gas sensor with two chambers based on U-bending microring resonator

Zhang

Yuchao³

et al. 2013

Optoelectron. Lett.

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Sun Yuchao

Simulation of ZnO-coated SOI microring resonant shift response to ethanol and ammonia

Dye-doped Silica Nano-powder Random laser Emission

Manufacture of SPASER Amplifier with Metal-Insulator-Metal Structure

An ammonia gas sensor with two chambers based on U-bending microring resonator

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