激光与光电子学进展, 2018, 55 (2): 020008, 网络出版: 2018-09-10
激光无线能量传输研究进展 下载: 1721次
Research Progress of Laser Wireless Power Transmission
图 & 表
图 1. 欧洲光可持续发展计划空间太阳能电站概念图
Fig. 1. Concept map of European light sustainable development space solar power station
图 4. (a)太阳光直接照射车顶光伏电池;(b)激光经太阳光抽运激光器转换后照射车顶光伏电池
Fig. 4. (a) Sunlight illuminates directly at photovoltaic cells on car roof; (b) photovoltaic cells on the car roof illuminated by laser generated from solar-pumped laser
图 5. 小车激光供能实验装置。(a)运行中的小车示意图;(b)小车示意图
Fig. 5. Experimental setup of small car driven by laser. (a) Diagram of the ongoing small car; (b) diagram of the small car
图 10. 太阳光功率密度及光电池温度对电池输出特性的影响。(a)光功率密度对电流的影响;(b)光电池温度对电压的影响
Fig. 10. Influences of solar beam power density and photovoltaic cell temperature on output characteristics of cell. (a) Influence of light power density on current; (b) influence of photovoltaic cell temperature on voltage
图 11. 激光辐照下GaAs光伏电池的光电转换效率
Fig. 11. Photoelectric conversion efficiency of GaAs photovoltaic cell under laser illumination
表 1光伏电池在激光照射下的能量转换效率
Table1. Power conversion efficiency of photovoltaic cells under laser illumination
|
李巍, 吴凌远, 王伟平. 激光无线能量传输研究进展[J]. 激光与光电子学进展, 2018, 55(2): 020008. Wei Li, Lingyuan Wu, Weiping Wang. Research Progress of Laser Wireless Power Transmission[J]. Laser & Optoelectronics Progress, 2018, 55(2): 020008.