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Multi-wavelength coherent random laser in bio-microfibers

Zhendong Xie, Kang Xie, Taoping Hu, Jiajun Ma, Junxi Zhang, Rui Ma, Xusheng Cheng, Jianquan Li, Zhijia Hu

2020Optics Express30 citationsDOIOpen Access PDF

Abstract

In this paper, pure silk protein was extracted from Bombyx mori silks and fabricated into a new kind of disordered bio-microfiber structure using electrospinning technology. Coherent random lasing emission with low threshold was achieved in the silk fibroin fibers. The random lasing emission wavelength can be tuned in the range of 33 nm by controlling the pump location with different scattering strengths. Therefore, the bio-microfiber random lasers can be a wide spectral light source when the system is doped with a gain or energy transfer medium with a large fluorescence emission band. Application of the random lasers of the bio-microfibers as a low-coherence light source in speckle-free imaging had also been studied.

Topics & Concepts

Random laserMicrofiberMaterials scienceLasing thresholdFibroinOpticsLaserOptoelectronicsFiber laserCoherence (philosophical gambling strategy)Amplified spontaneous emissionWavelengthSpeckle patternSILKPhysicsComposite materialQuantum mechanicsRandom lasers and scattering mediaOrbital Angular Momentum in OpticsPhotonic Crystals and Applications
Multi-wavelength coherent random laser in bio-microfibers | Litcius