[1] Bo ZHANG, Xiaochuan DENG, Yourun ZHANG等. Recent development and future perspective of silicon carbide power devices——opportunity and challenge. Journal of China Academy of Electronics and Information Technology, 4, 111-118(2009).
[2] Xuemei WANG. Researches and applications of wide bandgap SiC power devices in electric vehicles. Proceedings of the CSEE, 34, 371-379(2014).
[3] Kuang SHENG, Qing GUO. Prospects of SiC power electronic device application in power grid. Southern Power System Technology, 10, 87-90+9(2016).
[4] Min ZHAO, Wenzhi HE, Haochen ZHU等. Application and prospect of silicon carbide in energy field. Shanghai Energy Conservation, 578-582(2017).
[5] Wenhai JIANG. Analysis of the development and application of silicon carbide power electronic devices. China High-Tech Enterprises, 37-38(2015).
[6] H MORKOC, S STRITE, G B GAO et al. Large‐band‐gap SiC, III‐V nitride, and II‐VI ZnSe‐based semiconductor device technologies. Journal of Applied physics, 76, 1363-1398(1994).
[7] K YAMAMURA, T TAKIGUCHI, M UEDA et al. Plasma assisted polishing of single crystal SiC for obtaining atomically flat strain-free surface. CIRP Annals, 60, 571-574(2011).
[8] B PECHOLT, S GUPTA, P MOLIAN. Review of laser microscale processing of silicon carbide. Journal of Laser Applications, 23(2011).
[9] K MISHCHIK, R BEUTON, O D CAULIER et al. Improved laser glass cutting by spatio-temporal control of energy deposition using bursts of femtosecond pulses. Optics Express, 25, 33271-33332(2017).
[10] H Y ZHENG, P L CHU et al. High quality femtosecond laser cutting of alumina substrates. Optics and Lasers in Engineering, 48, 657-663(2010).
[11] K SUGIOKA, Y CHENG. Ultrafast lasers—reliable tools for advanced materials processing. Light: Science & Applications, 3, e149-e149(2014).
[12] M MALINAUSKAS, A ŽUKAUSKAS, S HASEGAWA et al. Ultrafast laser processing of materials: from science to industry. Light: Science & Applications, 5(2016).
[13] Yigang HUANG, Fei TANG, Zheng GUO et al. Accelerated ICP etching of 6H-SiC by femtosecond laser modification. Applied Surface Science, 488, 853-864(2019).
[14] B KIM, R IIDA, D H DOAN et al. Mechanism of nanosecond laser drilling process of 4H-SiC for through substrate vias. Applied Physics A, 123, 392-392(2017).
[15] Ru HUANG Chuanzhen WANG Jun ZHANG et al. Micromachining of 4H-SiC using femtosecond laser. Ceramics International, 44, 17775-17783(2018).
