[1] [1] Cao H, Zhao Y G, Ho S T, et al. Random laser action in semiconductor powder［J］. Physical Review Letters,1999,82(11):2278-2281.

[2] [2] Oliveira P C D, Santos W Q, Oliveira I N, et al. Random laser and stimulated Raman scattering in liquid solutions of rhodamine dyes［J］. Laser Physics Letters,2019,16(5):055002.

[3] [3] Li X, Hong F, Wang S, et al. A tunable blue random laser based on solid waveguide gain films with plasmonics and scatters［J］. Journal of Alloys and Compounds,2019,790:558-562.

[4] [4] Shi X Y, Ge K, Tong J H, et al. Low-cost biosensors based on a plasmohic random laser on fiber facet［J］.Optic Express,2020,28(8):12233-12242.

[5] [5] Gu C, Chen R, Belev G, et al. Application of Two-photon-absorption pulsed laser for single-event-effects sensitivity mapping technology［J］. Materials,2019,12(20):3411.

[6] [6] Polson R C, Vardeny Z V. Random lasing in human tissues［J］. Applied Physics Letters,2004,85(7):1289-1291.

[7] [7] Chen Chunwei, Chang Hung, et al. Random lasing in blue phase liquid crystals［J］. Optics Express,2012,20(21):23978-23984.

[8] [8] Cao H, Xu J Y, Seelig E W, et al. Microlaser made of disordered media［J］. Applied Physics Letters,2000,76(21):2997-2999.

[9] [9] Diederik S Wiersma, Stefano Cavalieri. Temperature-controlled random laser action in liquid crystal infiltrated systems［J］. Phys Rev E Stat Nonlin Soft Matter Phys,2002,66(5 Pt 2):056612.

[10] [10] Wetter N, Jimenez-Villar E. Random laser materials: from ultrahigh efficiency to very low threshold(Anderson localization)［J］. Journal of Materials Science Materials in Electronics,2019,30:16761-16773.

[11] [11] Wang Z, Cao M, Shao G, et al. Coherent random lasing in colloidal quantum dot doped polymer dispersed liquid crystal with low threshold and high stability［J］. Journal of Physical Chemistry Letters,2020,11:767-774.

[12] [12] Jian C, Deng, Meng M, et al. Stable and low-threshold random fiber laser via Anderson localization［J］. Optics Express,2019,27(9):12987-12997.

[14] [14] Anderson P W. Absence of diffusion in certain random lattices［J］. Physical Review,1958,109(5):1492-1505.

[15] [15] Qin Q W, Yuan Q W. Low driving voltage ITO doped polymer-dispersed liquid crystal film and reverse voltage pulse driving method［J］. Appl Opt,2017,56(29):8159-8163.

[16] [16] Dai H T, Gao M N, Xue Y X, et al. Magnetically tunable random lasing from polymer dispersed liquid crystal doped ferromagnetic nanoparticles in capillary［J］. AIP Advances,2019,9(11):115015.

[17] [17] Li H, Pan F, Wu Y, et al. Electrically tunable Binary-phase fresnel lens based on polymer dispersed liquid crystal［J］. Materials Science,2017,23(2):119-123.

[18] [18] Liu L, Kong X, Liu Y, et al. Electrically tunable dual-wavelength organic laser based on holographic polymer dispersed liquid crystal grating［J］. Organic Electronics,2019,74:161-165.

[19] [19] Zhi Q S, Ying W, Ying H W. Effects of thiol monomers on the electro-optical properties of polymer-dispersed liquid crystal films prepared by nucleophile-initiated thiol-ene click reaction［J］. Liquid Crystals,2018,16:1746-1752.

[20] [20] Wang K, Zheng J, Gui K, et al. Improvement on the performance of holographic polymer-dispersed liquid crystal gratings with surface plasmon resonance of ag and au nanoparticles［J］. Plasmonics,2015,10(2):383-389.

[21] [21] Wang J L, Zhang Y T, Cao M X, et al. Platinum-scatterer-based random lasers from dye-doped polymer-dispersed liquid crystals in capillary tubes［J］. Applied Optics,2016,55:5702-5706.

[22] [22] Pagliusi P, Rugiero T, Blinov L M, et al. Band narrowing and gain spectra of laser day solutions with scattering TiO2 nanoparticles［J］.Journal of Nonlinear Optical Physics & Materials,2008,17(1):71-83.

[23] [23] Chiad B T, Latif K H, Kadhim F J, et al. Random laser of R6G dye and TiO2 nanoparticals doped in PMMA polymer［J］. Advances in Materials Physics & Chemistry,2011,1(2):20-25.

[24] [24] Ernesto J V, Valdeci M, Paulo C D, et al. High efficiency and low photodegradation in random laser, using novel TiO2 @Silica nanoparticles［J］. Optics and Laser Technology,2014,2:26-32.

[27] [27] Liu Y J, Sun X W, Elim H I, et al. Gain narrowing and random lasing from dye-doped polymer-dispersed liquid crystals with nanoscale liquid crystal droplets［J］. Applied Physics Letters,2006,89(1):3373.