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Waves in Random Media Volume 13, 2003 - Issue 3
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Topical Review

Lasing in random media

Hui Cao Department of Physics and Astronomy, Northwestern University, Evanston, IL, 60208, USA
Pages R1-R39 | Received 03 Feb 2003, Published online: 15 Aug 2006

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Vasil P. Yashchuk, M. Zhuravsky & O. Prygodiuk. (2020) Formation of random lasing radiation within a limited strongly scattering medium. Molecular Crystals and Liquid Crystals 697:1, pages 20-30.
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Crossref
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Yu-Chi Wang, Heng Li, Yu-Heng Hong, Kuo-Bin Hong, Fang-Chung Chen, Chia-Hung Hsu, Ray-Kuang Lee, Claudio Conti, Tsung Sheng Kao & Tien-Chang Lu. (2019) Flexible Organometal–Halide Perovskite Lasers for Speckle Reduction in Imaging Projection. ACS Nano 13:5, pages 5421-5429.
Crossref
Jijun He, Shuhuan Hu, Jifeng Ren, Xin Cheng, Zhijia Hu, Ning Wang, Huangui Zhang, Raymond H. W. Lam & Hwa-Yaw Tam. (2019) Biofluidic Random Laser Cytometer for Biophysical Phenotyping of Cell Suspensions. ACS Sensors 4:4, pages 832-840.
Crossref
Jiao Tian, Guoen Weng, Youyang Wang, Xiaobo Hu, Shaoqiang Chen & Junhao Chu. (2019) Random Lasing in ZnO Nanopowders Based on Multiphoton Absorption for Ultrafast Upconversion Application. ACS Applied Nano Materials 2:4, pages 1909-1919.
Crossref
Jinghao Wang, Ruishan Chen, Junna Yao, Hai Ming, Anting Wang & Qiwen Zhan. (2019) Random Distributed Feedback Fiber Laser Generating Cylindrical Vector Beams. Physical Review Applied 11:4.
Crossref
Ying Li, Yue Long, Guoqiang Yang, Chen-Ho Tung & Kai Song. (2019) Tunable amplified spontaneous emission based on liquid magnetically responsive photonic crystals. Journal of Materials Chemistry C 7:13, pages 3740-3743.
Crossref
Kevin Pichler, Matthias Kühmayer, Julian Böhm, Andre Brandstötter, Philipp Ambichl, Ulrich Kuhl & Stefan Rotter. (2019) Random anti-lasing through coherent perfect absorption in a disordered medium. Nature 567:7748, pages 351-355.
Crossref
Çağlar Duman & Fatih Kaburcuk. (2019) A numerical study of ZnO random lasers using FDTD method. Optik 181, pages 993-999.
Crossref
N. M. Hoinka & T. Fuhrmann-Lieker. (2019) Amplified Spontaneous Emission in Paper. Scientific Reports 9:1.
Crossref
Antonio Consoli, Esther Soria, Niccolò Caselli & Cefe López. (2019) Random lasing emission tailored by femtosecond and picosecond pulsed polymer ablation. Optics Letters 44:3, pages 518.
Crossref
Y. Bliokh, E. I. Chaikina, I. D. Vatnik & D. V. Churkin. (2019) Temporal variation of the spectrum of a continuously pumped random fiber laser: phenomenological model. Journal of the Optical Society of America B 36:2, pages 408.
Crossref
Giovanni Giacomelli, Stefano Lepri & Cosimo Trono. (2019) Optical networks as complex lasers. Physical Review A 99:2.
Crossref
Radivoje Prizia, Claudio Conti & Neda Ghofraniha. (2018) Soret reverse saturable absorption of graphene oxide and its application in random lasers. Journal of the Optical Society of America B 36:1, pages 19.
Crossref
Stefan Bittner, Sebastian Knitter, Seng Fatt Liew & Hui Cao. (2019) Random-laser dynamics with temporally modulated pump. Physical Review A 99:1.
Crossref
Yashuai An, Yuan Wan & Luogen Deng. (2019) Electrically controlled random lasing from dye-doped nematic liquid crystals containing Ag nanoparticles within thin in-plane switching cells. Laser Physics 29:1, pages 015804.
Crossref
Nikolay S. Panamarev, Valeriy A. Donchenko, Аlexey A. Zemlyanov, Roman V. Ryambov & Аlina V. Trifonova. (2018) Influence of concentration and heating of gold, platinum, and silver nanoparticles on the thresholds of non-resonant generation in heterogeneous planar active media. Influence of concentration and heating of gold, platinum, and silver nanoparticles on the thresholds of non-resonant generation in heterogeneous planar active media.
Sreekanth Perumbilavil, Martti Kauranen & Gaetano Assanto. (2018) Near-Infrared Switching of Light-Guided Random Laser. IEEE Photonics Journal 10:5, pages 1-7.
Crossref
Sreekanth Perumbilavil, Armando Piccardi, Raouf Barboza, Oleksandr Buchnev, Martti Kauranen, Giuseppe Strangi & Gaetano Assanto. (2018) Beaming random lasers with soliton control. Nature Communications 9:1.
Crossref
Sreekanth Perumbilavil, Martti Kauranen & Gaetano Assanto. (2018) Magnetic steering of beam-confined random laser in liquid crystals. Applied Physics Letters 113:12.
Crossref
Sunita Kedia & Sucharita Sinha. (2018) Random lasing from dyed polystyrene spheres in disordered environments. Journal of Laser Applications 30:3.
Crossref
Abbas Ghasempour Ardakani & Peymaneh Rafieipour. (2018) Using ZnO nanosheets grown by electrodeposition in random lasers as scattering centers: the effects of sheet size and presence of mode competition. Journal of the Optical Society of America B 35:7, pages 1708.
Crossref
Lalruatfela Renthlei, S Anantha Ramakrishna & Harshawardhan Wanare. (2018) Cloaks for suppression or enhancement of scattering of diffuse photon density waves. Pramana 91:1.
Crossref
Yanyan Wu, Jinyu Li, Hai Zhu, Yuhao Ren, Guanlin Lou, Zhiyang Chen, Xuchun Gui & Zikang Tang. (2018) Enhanced random laser by metal surface-plasmon channel waveguide. Optics Express 26:13, pages 17511.
Crossref
Yuhao Ren, Hai Zhu, Yanyan Wu, Guanlin Lou, Yunfeng Liang, Shuti Li, Shichen Su, Xuchun Gui, Zhiren Qiu & Zikang Tang. (2018) Ultraviolet Random Laser Based on a Single GaN Microwire. ACS Photonics 5:6, pages 2503-2508.
Crossref
Patrizia Weiss, Michelle O Araújo, Robin Kaiser & William Guerin. (2018) Subradiance and radiation trapping in cold atoms. New Journal of Physics 20:6, pages 063024.
Crossref
Shuofeng Liang, Leicheng Yin, ZhenZhen Zhang, Jiangying Xia, Kang Xie, Gang Zou, Zhijia Hu & Qijin Zhang. (2018) Coherent random lasing controlled by Brownian motion of the active scatterer. Journal of Physics B: Atomic, Molecular and Optical Physics 51:9, pages 095401.
Crossref
Jijun He, Wing‐KinEdward Chan, Xin Cheng, Ming‐LeungVincent Tse, Chao Lu, Ping‐KongAlexander Wai, Svetislav Savovic & Hwa‐Yaw Tam. (2018) Experimental and Theoretical Investigation of the Polymer Optical Fiber Random Laser with Resonant Feedback. Advanced Optical Materials 6:7.
Crossref
Alexander Schnell, Roland Ketzmerick & André Eckardt. (2018) On the number of Bose-selected modes in driven-dissipative ideal Bose gases. Physical Review E 97:3.
Crossref
Judson D. Ryckman. (2017) Random Coherent Perfect Absorption with 2D Atomic Materials Mediated by Anderson Localization. ACS Photonics 5:2, pages 574-580.
Crossref
Wei-Cheng Liao, Yu-Ming Liao, Chuan-Tsung Su, Packiyaraj Perumal, Shih-Yao Lin, Wei-Ju Lin, Cheng-Han Chang, Hung-I Lin, Golam Haider, Chiao-Yun Chang, Shu-Wei Chang, Cheng-Yen Tsai, Tien-Chang Lu, Tai-Yuan Lin & Yang-Fang Chen. (2017) Plasmonic Carbon-Dot-Decorated Nanostructured Semiconductors for Efficient and Tunable Random Laser Action. ACS Applied Nano Materials 1:1, pages 152-159.
Crossref
Min Liu, Hong Sheng Quah, Shuangchun Wen, Ying Li, Jagadese J. Vittal & Wei Ji. (2017) Multiphoton Absorption and Two-Photon-Pumped Random Lasing in Crystallites of a Coordination Polymer. The Journal of Physical Chemistry C 122:1, pages 777-781.
Crossref
Lech Sznitko, Luigi Romano, Andrea Camposeo, Dominika Wawrzynczyk, Konrad Cyprych, Jaroslaw Mysliwiec & Dario Pisignano. (2017) Interplay of Stimulated Emission and Fluorescence Resonance Energy Transfer in Electrospun Light-Emitting Fibers. The Journal of Physical Chemistry C 122:1, pages 762-769.
Crossref
Lech Sznitko, Luigi Romano, Dominika Wawrzynczyk, Konrad Cyprych, Jaroslaw Mysliwiec & Dario Pisignano. (2018) Stacked electrospun polymer nanofiber heterostructures with tailored stimulated emission. RSC Advances 8:43, pages 24175-24181.
Crossref
Yashashchandra Dwivedi. 2018. Molecular and Laser Spectroscopy. Molecular and Laser Spectroscopy 241 263 .
Maria Moffa, Andrea Camposeo, Vito Fasano, Barbara Fazio, Maria Antonia Iatì, Onofrio M. Maragò, Rosalba Saija, Heinz‐Christoph Schröder, Werner E. G. Müller & Dario Pisignano. (2017) Biomineral Amorphous Lasers through Light‐Scattering Surfaces Assembled by Electrospun Fiber Templates. Laser & Photonics Reviews 12:1.
Crossref
Lihua Ye, Chong Zhao, Yangyang Feng, Bing Gu, Yiping Cui & Yanqing Lu. (2017) Study on the Polarization of Random Lasers from Dye-Doped Nematic Liquid Crystals. Nanoscale Research Letters 12:1.
Crossref
Anjani Kumar Tiwari, Lorenzo Pattelli, Renato Torre & Diederik Wiersma. (2017) Remote Control of Liquid Crystal Elastomer Random Laser. Remote Control of Liquid Crystal Elastomer Random Laser.
Yusuke Nagai, Chen Shao-Chieh & Kotaro Kajikawa. (2017) Two-dimensional coherent random laser in photonic crystal fiber with dye-doped nematic liquid crystal. Applied Optics 56:32, pages 8969.
Crossref
Zhuoxian Wang, Xiangeng Meng, Alexander V. Kildishev, Alexandra Boltasseva & Vladimir M. Shalaev. (2017) Nanolasers Enabled by Metallic Nanoparticles: From Spasers to Random Lasers. Laser & Photonics Reviews 11:6.
Crossref
Yefeng Mei, Xianxin Guo, Luwei Zhao & Shengwang Du. (2017) Mirrorless Optical Parametric Oscillation with Tunable Threshold in Cold Atoms. Physical Review Letters 119:15.
Crossref
M. Hilke & H. Eleuch. (2017) Anderson Localization for Very Strong Speckle Disorder. Annalen der Physik 529:9.
Crossref
Yu Wang, Zhuojun Duan, Zhu Qiu, Peng Zhang, Jianwei Wu, Dingke Zhang & Tingxiu Xiang. (2017) Random lasing in human tissues embedded with organic dyes for cancer diagnosis. Scientific Reports 7:1.
Crossref
Zhijia Hu, Jiangying Xia, Yunyun Liang, JianXiang Wen, Enming Miao, Jingjing Chen, Sizhu Wu, Xiaodong Qian, Haiming Jiang & Kang Xie. (2017) Tunable random polymer fiber laser. Optics Express 25:15, pages 18421.
Crossref
Lalruatfela Renthlei, S. Anantha Ramakrishna & Harshawardhan Wanare. (2017) Photon density wave resonances of amplifying inhomogeneities in a random medium. Journal of the Optical Society of America B 34:7, pages 1386.
Crossref
Anirban Sarkar, N. N. Subhashree Ojha & B. N. Shivakiran Bhaktha. (2017) Effect of photonic stop-band on the modes of a weakly scattering DCM-PVA waveguide random laser. Applied Physics Letters 110:25.
Crossref
Srikanth Sugavanam, Mariia Sorokina & Dmitry V. Churkin. (2017) Spectral correlations in a random distributed feedback fibre laser. Nature Communications 8:1.
Crossref
M. Vermillac, J.‐F. Lupi, F. Peters, M. Cabié, P. Vennéguès, C. Kucera, T. Neisius, J. Ballato & W. Blanc. (2017) Fiber‐draw‐induced elongation and break‐up of particles inside the core of a silica‐based optical fiber. Journal of the American Ceramic Society 100:5, pages 1814-1819.
Crossref
José Trull, Josep Salud, Sergio Diez-Berart & David O. López. (2017) Influence of liquid crystalline phases on the tunability of a random laser. Physical Review E 95:5.
Crossref
Brett H. Hokr, Jonathan V. Thompson, Joel N. Bixler, Dawson T. Nodurft, Gary D. Noojin, Brandon Redding, Robert J. Thomas, Hui Cao, Benjamin A. Rockwell, Marlan O. Scully & Vladislav V. Yakovlev. (2017) Enabling time resolved microscopy with random Raman lasing. Scientific Reports 7:1.
Crossref
Sreekanth Perumbilavil, Armando Piccardi, Oleksandr Buchnev, Martti Kauranen, Giuseppe Strangi & Gaetano Assanto. (2017) All-optical guided-wave random laser in nematic liquid crystals. Optics Express 25:5, pages 4672.
Crossref
Stefano Lepri, Cosimo Trono & Giovanni Giacomelli. (2017) Complex Active Optical Networks as a New Laser Concept. Physical Review Letters 118:12.
Crossref
Jaroslaw Mysliwiec, Konrad Cyprych, Lech Sznitko & Andrzej Miniewicz. (2017) Biomaterials in light amplification. Journal of Optics 19:3, pages 033003.
Crossref
Hai Zhu, Anqi Chen, Yanyan Wu, Xu Ji, Yiting He, Zhiren Qiu, Zikang Tang & Siufung Yu. (2017) Low-threshold GaN thin-film random laser through the weak scattering feedback. Journal of Physics D: Applied Physics 50:4, pages 045107.
Crossref
D.V. Kupriyanov, I.M. Sokolov & M.D. Havey. (2017) Mesoscopic coherence in light scattering from cold, optically dense and disordered atomic systems. Physics Reports 671, pages 1-60.
Crossref
Charlotte Hurot, Wan Zakiah Wan Ismail & Judith M Dawes. (2017) Random laser in a fiber: combined effects of guiding and scattering lead to a reduction of the emission threshold. Optical Data Processing and Storage 3:1.
Crossref
Antonio Consoli & Cefe López. (2017) Lasing optical cavities based on macroscopic scattering elements. Scientific Reports 7:1.
Crossref
Qi Jie Wang, Yongquan Zeng & Guozhen Liang. (2017) Random Lasers in the Mid-infrared and Terahertz regimes. Random Lasers in the Mid-infrared and Terahertz regimes.
Anirban Sarkar, Jonathan Andreasen & Bhaktha B.N. Shivakiran. (2017) Spatially Dependent Replica Symmetry Breaking in an Optofluidic Random Laser. Spatially Dependent Replica Symmetry Breaking in an Optofluidic Random Laser.
Jijun He, Wing-Kin Edward Chan, Xin Chen & Hwa-Yaw Tam. (2017) Experimental and Theoretical Investigation of Polymer Optical Fiber Random Laser in the Weakly Scattering Regime. Experimental and Theoretical Investigation of Polymer Optical Fiber Random Laser in the Weakly Scattering Regime.
Xuehong Zhou, Linlin Liu, Xiaoyan Wu, Yuzhao Yang, Xiao-Fang Jiang, Xudong Chen, Qing-Hua Xu, Zengqi Xie & Yuguang Ma. (2017) An Au NP doped buffer layer in a slab waveguide for enhancement of organic amplified spontaneous emission. Journal of Materials Chemistry C 5:6, pages 1356-1362.
Crossref
Yongquan Zeng, Guozhen Liang, Hou Kun Liang, Shampy Mansha, Bo Meng, Tao Liu, Xiaonan Hu, Jin Tao, Lianhe Li, Alexander Giles Davies, Edmund Harold Linfield, Ying Zhang, Yidong Chong & Qi Jie Wang. (2016) Designer Multimode Localized Random Lasing in Amorphous Lattices at Terahertz Frequencies. ACS Photonics 3:12, pages 2453-2460.
Crossref
Joseph S. T. Smalley, Felipe Vallini, Qing Gu & Yeshaiahu Fainman. (2016) Amplification and Lasing of Plasmonic Modes. Proceedings of the IEEE 104:12, pages 2323-2337.
Crossref
Logan G. Wright, Zhanwei Liu, Daniel A. Nolan, Ming-Jun Li, Demetrios N. Christodoulides & Frank W. Wise. (2016) Self-organized instability in graded-index multimode fibres. Nature Photonics 10:12, pages 771-776.
Crossref
Neda Ghofraniha, Luca La Volpe, Daniel Van Opdenbosch, Cordt Zollfrank & Claudio Conti. (2016) Biomimetic Random Lasers with Tunable Spatial and Temporal Coherence. Advanced Optical Materials 4:12, pages 1998-2003.
Crossref
Valeriy A. DonchenkoAleksey A. ZemlyanovMichael M. ZinovjevAnna N. PanamaryovaVladimir A. Kharenkov. The influence of plasmon resonance on the decrease of resonatorless laser generation thresholds. The influence of plasmon resonance on the decrease of resonatorless laser generation thresholds.
Volodymyr B. Koman, Christian Santschi & Olivier J. F. Martin. (2016) Maximal absorption regime in random media. Optics Express 24:22, pages A1306.
Crossref
Hideki Fujiwara, Takemasa Suzuki, Ryo Niyuki & Keiji Sasaki. (2016) ZnO nanorod array random lasers fabricated by a laser-induced hydrothermal synthesis. New Journal of Physics 18:10, pages 103046.
Crossref
Junaid M Laskar, Baldev Raj & John Philip. (2016) Path length tunable light-matter interaction in magnetic nanofluid based field-induced photonic crystal-glass structure. New Journal of Physics 18:10, pages 103037.
Crossref
Lihua Ye, Yangyang Feng, Changgui Lu, Guohua Hu & Yiping Cui. (2016) Coherent random lasing from liquid waveguide gain layer containing silica nanoparticles. Laser Physics Letters 13:10, pages 105002.
Crossref
W. Guerin, Y. D. Chong, Q. Baudouin, M. Liertzer, S. Rotter & R. Kaiser. (2016) Diffusive to quasi-ballistic random laser: incoherent and coherent models. Journal of the Optical Society of America B 33:9, pages 1888.
Crossref
V. A. Donchenko, Al. A. Zemlyanov, M. M. Zinoviev, N. S. Panamarev, A. V. Trifonova & V. A. Kharenkov. (2016) Properties of lasing in Rhodamine 6G solutions with nanoparticles free of plasmon resonance. Atmospheric and Oceanic Optics 29:5, pages 452-456.
Crossref
Zhenzhen Shang, Mingchao Yang & Luogen Deng. (2016) Low–Threshold and High Intensity Random Lasing Enhanced by MnCl2. Materials 9:9, pages 725.
Crossref
Shu Zhu, Zhenhua Shen, Bei Jiang & Xianfeng Chen. (2016) Random lasing at the edge of a TiO_2 nanotube thin film. Applied Optics 55:19, pages 5091.
Crossref
Mingxuan Cao, Yating Zhang, Xiaoxian Song, Yongli Che, Haiting Zhang, Chao Yan, Haitao Dai, Guang Liu, Guizhong Zhang & Jianquan Yao. (2016) Enhanced amplified spontaneous emission in a quantum dot-doped polymer-dispersed liquid crystal. Nanotechnology 27:26, pages 26LT01.
Crossref
Zhijia Hu, Yunyun Liang, Xiaodong Qian, Pengfei Gao, Kang Xie & Haiming Jiang. (2016) Polarized random laser emission from an oriented disorder polymer optical fiber. Optics Letters 41:11, pages 2584.
Crossref
C. Cachoncinlle, E. Millon & A. Petit. (2016) High-resolution emission spectroscopy of random lasing in GaN films pumped by UV-pulsed laser. Optics Communications 368, pages 49-53.
Crossref
Antonio Consoli & Cefe Lopez. (2016) Emission regimes of random lasers with spatially localized feedback. Optics Express 24:10, pages 10912.
Crossref
Jon Azkargorta, Iñaki Iparraguirre, Macarena Barredo-Zuriarrain, Sara García-Revilla, Rolindes Balda & Joaquín Fernández. (2016) Random Laser Action in Nd:YAG Crystal Powder. Materials 9:5, pages 369.
Crossref
Brett H. Hokr, Dawson T. Nodurft, Jonathan V. Thompson, Joel N. Bixler, Gary D. Noojin, Brandon Redding, Robert J. Thomas, Hui Cao, Benjamin A. Rockwell, Marlan O. Scully & Vladislav V. Yakovlev. Lighting up microscopy with random Raman lasing. Lighting up microscopy with random Raman lasing.
I E Svitsiankou, V N Pavlovskii, E V Lutsenko, G P Yablonskii, A V Mudryi, V D Zhivulko, M V Yakushev & R W Martin. (2016) Stimulated emission and lasing in Cu(In,Ga)Se 2 thin films . Journal of Physics D: Applied Physics 49:9, pages 095106.
Crossref
Brett H. Hokr, Alexander Cerjan, Jonathan V. Thompson, Luqi Yuan, Seng Fatt Liew, Joel N. Bixler, Gary D. Noojin, Robert J. Thomas, Hui Cao, A. Douglas Stone, Benjamin A. Rockwell, Marlan O. Scully & Vladislav V. Yakovlev. Evidence of Anderson localization effects in random Raman lasing. Evidence of Anderson localization effects in random Raman lasing.
I Iparraguirre, J Azkargorta, K Kamada, A Yoshikawa, U R Rodríguez-Mendoza, V Lavín, M Barredo-Zuriarrain, R Balda & J Fernández. (2016) Random laser action in stoichiometric Nd 3 Ga 5 O 12 garnet crystal powder . Laser Physics Letters 13:3, pages 035402.
Crossref
Alex C. Han & Valery Milner. (2016) Nonlinear spatial focusing in random layered media by spectral pulse shaping. Physical Review A 93:2.
Crossref
Jason W. Merrill, Hui Cao & Eric R. Dufresne. (2016) Fluctuations and correlations of emission from random lasers. Physical Review A 93:2.
Crossref
Rabi Rabady & Ivan Avrutsky. (2016) Light scattering in random planar structures supporting guiding modes. Optik 127:3, pages 1297-1300.
Crossref
Wan Zakiah Wan Ismail, Ewa M. Goldys & Judith M. Dawes. (2016) Extended emission wavelength of random dye lasers by exploiting radiative and non-radiative energy transfer. Applied Physics B 122:2.
Crossref
Yuchen Wang, Xiao Yang, Heng Li & ChuanXiang Sheng. (2016) Bright single-mode random laser from a concentrated solution of π-conjugated polymers. Optics Letters 41:2, pages 269.
Crossref
Anirban Sarkar, Jonathan Andreasen & Shivakiran B. N. Bhaktha. (2016) Boundary-concentrated Modes of a 2-D Optofluidic Random Laser Mapped Using a Pump-probe Technique. Boundary-concentrated Modes of a 2-D Optofluidic Random Laser Mapped Using a Pump-probe Technique.
Benjamin R Anderson, Ray Gunawidjaja & Hergen Eilers. (2016) Random lasing and reversible photodegradation in disperse orange 11 dye-doped PMMA with dispersed ZrO 2 nanoparticles . Journal of Optics 18:1, pages 015403.
Crossref
Leicheng Yin, Yunyun Liang, Bo Yu, Yeping Wu, Jiajun Ma, Kang Xie, Wei Zhang, Gang Zou, Zhijia Hu & Qijin Zhang. (2016) Quantitative analysis of “Δl = l s − l g ” to coherent random lasing in solution systems with a series of solvents ordered by refractive index . RSC Advances 6:100, pages 98066-98070.
Crossref
Leicheng Yin, Yunyun Liang, Bo Yu, Yeping Wu, Jiajun Ma, Kang Xie, Wei Zhang, Gang Zou, Zhijia Hu & Qijin Zhang. (2016) Coherent random lasing from nano-scale aggregates of hybrid molecules by enhanced near zone scattering. RSC Advances 6:88, pages 85538-85544.
Crossref

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