Guoquan Zhou received Ph. D. degree from Zhejiang University in 2002. From 2002 to 2005, he performed post-doctor in photoelectric engineering of Zhejiang University. Now, he is a professor, and is the tutor ofopticalengineeringmaster. He is the first level of the new century “151” talent project of Zhejiang Province, and is a middle and young academic leader of physics of Zhejiang Province. He is a commissioner of the Teaching Committee of Chinese Physical Society, the executive member of Zhejiang Physical Society, and a commissioner of Zhejiang Optical Society. His major research fields includelight field manipulation and applications.He presided over the National Natural Science Foundation of China,Zhejiang Provincial Natural Science Foundation of China, Key Project of Science and Technology Department of Zhejiang Province. Also, he is the principal investigator of National Defence Foundation of China and Aerial Foundation of China. He has published more than 150 papers, of which more than 120 were included in SCI. He won the third prize of Liang Xi’s Forestry Science and Technology Award of China, the second prize of Natural Science Award of Zhejiang Province, the second prize ofTeaching Achievement Award of Zhejiang Province. He has been authorized15invention patents. He has published4monographs in Chinese Science Press and Chinese Agriculture Press.
His representative papersare as follows:
[1]Liang Chen#,Guosheng Shi#,Jie Shen#,Bingquan Peng#,Bowu Zhang,Yuzhu Wang,Fenggang Bian,Jiajun Wang,Deyuan Li,Zhe Qian,Gang Xu,GongpingLiu,Jianrong Zeng,Lijuan Zhang,Yizhou Yang,Guoquan Zhou,Minghong Wu*,Wanqin Jin*,Jingye Li*,Haiping Fang*,Ion sieving in graphene oxide membranes via cationic control of interlayer spacing,Nature,2017,550:380-383.
[2]Rongzheng Wan, Chunlei Wang, Xiaoling Lei,Guoquan Zhou, Haiping Fang*, Enhancement of water evaporation on solid surfaces with nanoscale hydrophobic-hydrophilic patterns,Physical Review Letters, 2015, 115(19): 195901.
[3]Xiang Zang, Wensong Dan, Fei Wang, Yimin Zhou, Yangjian Cai,GuoquanZhou*, Dependence of autofocusing ability of a ring Airyprime beams array on the number of beamlets,Optics Letters, 2022, 47(21): 5654-5657.
[4]Xiang Zang, Wensong Dan,Yimin Zhou,Fei Wang, Yangjian Cai,Zhangrong Mei,GuoquanZhou*, Effect of chirped factors on the abrupt autofocusing ability of a chirped circular Airyprime beam,OpticsExpress, 2022, 30(25): 44967-44982.
[5]Wensong Dan,Xiang Zang,Fei Wang,Yimin Zhou,Yiqing Xu, Ruipin Chen,GuoquanZhou*,Interference enhancement effect in a single Airyprime beam propagating in free space,OpticsExpress, 2022, 30(18): 32704-32721.
[6]Xiang Zang, Wensong Dan,Fei Wang,Yimin Zhou,Yiqing Xu,GuoquanZhou*,Generation of finite energy Airyprime beams by Airy transformation,OpticsExpress, 2022,30(14): 24948-24967.
[7]Xiang Zang, Wensong Dan,YiminZhou, Han Lv,Fei Wang,YangjianCai,GuoquanZhou*, Abruptly autofocusing of generalized circular Airy derivative beams,OpticsExpress, 2022, 30(3): 3804-3819.
[8]GuoquanZhou#*,Fei Wang#,Ruipin Chen, Xia Li, Transformation of a Hermite-Gaussian beam by an Airy transform optical system,OpticsExpress, 2020, 28(19): 28518-28535.
[9]GuoquanZhou#*,Fei Wang#,ShangshenFeng, Airy transform of Laguerre-Gaussian beams,OpticsExpress, 2020, 28(13): 19683-19699.
[10]Guoquan Zhou*, Xiaogang Wang, Chaoqing Dai, Xiuxang Chu, Angular momentum density of a Gaussian vortex,Science China: Physics, Mechanics & Astonomy, 2014, 57(4): 619-627.
[11]Guoquan Zhou*,Xiaogang Wang,Xiuxang Chu, Fractional Fourier transform of Lorentz-Gauss vortex beams,Science China: Physics, Mechanics & Astonomy, 2013, 56(8):1487-1494.
[12]Guoquan Zhou*, Yangjian Cai, Chaoqing Dai, Hollow vortex Gaussian beams,Science China: Physics, Mechanics & Astonomy, 2013, 56(5): 896-903.
[13]Guoquan Zhou*, Ruipin Chen, Xiuxiang Chu, Propagation of Airy beams in uniaxial crystals orthogonal to the optical axis, Optics Express, 2012, 20(3): 2196-2205.
[14]Guoquan Zhou*, Yangjian Cai, Xiuxiang Chu, Propagation of a partially coherent hollow vortex Gaussian beam through a paraxial ABCD optical system in turbulent atmosphere, Optics Express, 2012, 20(9): 9897-9910.
[15] Yongzhou Ni,Guoquan Zhou*, Nonparaxial propagation of an elegant Laguerre-Gaussian beam orthogonal to optical axis of a uniaxial crystal, Optics Express, 2012, 20(15): 17160-17173.
[16]Guoquan Zhou*,Propagation of a higher-order cosh-Gaussian beam in turbulent atmosphere,Optics Express,2011,19(5):3945-3951.
[17]Guoquan Zhou*, Propagation of a radial phased-locked Lorentz beam array in turbulent atmosphere, Optics Express, 2011, 19(24): 24699-24711.
[18]Guoquan Zhou*, Xiuxiang Chu, Average intensity and spreading of a Lorentz-Gauss beam in turbulent atmosphere, Optics Express, 2010, 18(2): 726-731.
[19]Guoquan Zhou*, Propagation of a partially coherent Lorentz-Gauss beam through a paraxial ABCD optical system, Optics Express, 2010, 18(5): 4637-4643.
[20]Guoquan Zhou*, Xiuxiang Chu, Propagation of a partially coherent cosine-Gaussian beam through an ABCD optical system in turbulent atmosphere, Optics Express, 2009, 17(13):10529-10534.
[21]Guoquan Zhou*, Change of the paraxiality of a Gaussian beam diffracted by a circular aperture, Optics Express, 2009, 17(10): 8417-8422.
[22]Guoquan Zhou*,The analytical vectorial structure of a nonparaxial Gaussian beam close to the source,Optics Express,2008,16(6):3504-3514.
[23]Guoquan Zhou*,Analytical vectorial structure of Laguerre-Gaussian beam in the far field,Optics Letters,2006,31(17):2616-2618.