Carbon nanotube foams (CNFs) have been successfully used as near-critical-density targets in the laser-driven acceleration of high-energy ions and electrons. Here we report the recent advance in the fabrication technique of such targets. With the further developed floating catalyst chemical vapor deposition (FCCVD) method, large-area (>25 cm<sup>2</sup>) and highly uniform CNFs are successfully deposited on nanometer-thin metal or plastic foils as double-layer targets. The density and thickness of the CNF can be controlled in the range of 1-13 mg/cm<sup>3</sup> and 10-200 μm, respectively, by varying the synthesis parameters. The dependence of the target properties on the synthesis parameters and the details of the target characterization methods are presented for the first time.
Wang Pengjie, Qi Guijun, pan zhuo, Kong Defeng, Shou Yinren, Liu Jianbo, Cao Zhengxuan, Mei Zhusong, Xu Shirui, Liu Zhipeng, Chen Shiyou, Gao Ying, Zhao Jiarui, Ma Wenjun. Fabrication of large-area uniform carbon nanotube foams as near-critical-density targets for laser-plasma experiments[J]. High Power Laser Science and Engineering, , (): .
