[1] Mijin Choi, Jung-Ryul Lee, Chan-Yik Park. Development of a laser-powered wireless strain gauge device using a continuous-wave laser and photovoltaic cell[J]. Journal of Intelligent Material Systems and Structures, 2016, 27(17):2333-2343.
[2] Brown W C. The history of wireless power transmission[J]. Solar Energy, 1996, 56(1):3221.
[3] He Tao, Yang Suhui, Miguel Angel Munoz, et al. High power high efficiency laser power transmission at 100 m using optimized multi-cell GaAs converter[J]. Chin Phys Lett, 2014, 31(10):104203.
[4] Li Zhenyu, Shi Dele, Shen Jingshi, et al. Laser wireless power transmission technology[J]. Space Electronic Technology, 2013(3):71-76. (in Chinese)
[5] Nobuki Kawashima, Kazuya Takeda. Laser energy transmission for a wireless energy supply to robots[J]. Robotics and Automation in Construction, 2008, 10:373-380.
[6] Yang Shangfei, Lin Longxin. Key technology and application prospect of laser beaming motivation[J]. Laser Infrared, 2014, 44(5):477-481. (in Chinese)
[7] Chen Qi, Zhang Dechen, Zhu Dandi, et al. Design and experiment for realization of laser wireless power transmission for small unmanned aerial vehicles[C]//SPIE, 2015, 9671:96710N.
[8] Liu Xiaoguang, Hua Wenshen, Liu Xun, et al. Factors influencing efficiency of laser wireless power transmission system for micro-unmanned aerial vehicles[C]//SPIE, 2014, 9294:929403.
[9] Victor Victorovich Apollonov. Laser source for wireless power transmission in space[J]. Open Access Library Journal, 2015, 2:e1931.
[10] Wang Li, Hou Xinbin. Key technologies and some suggestions for the development of space solar power station[J]. Spacecraft Environment Engineering, 2014, 31(4):343-350. (in Chinese)
[11] Zhang Jiande, Guo Chunhui, Yu Hongfei. Research on receiver device for laser power transmission[J]. Spacecraft Engineering, 2015, 24(1):13-17. (in Chinese)
[12] Zhang Li. Design of Fresnel concentrating optical system with high homogeneity of energy distribution[D]. Hang zhou:China Jiliang University, 2013:32-38. (in Chinese)