[1] LI Jiapeng. Research on bellows self adjusting rapid throttling refrigerat with pre cooling stage[D]. Beijing: Chinese Academy of dnance Sciences, 2016. (in Chinese)
[2] W A LITTLE. Microminiature refrigeration. Review of Scientific Instruments, 55, 661-680(1984).
[3] MAYTAL B Z, PFOTENHAUER J M. Miniature JouleThomson Cryocooling Principles Practice[M]. New Yk: Springer, 2013.
[4] J C HILL, L WAYNE, J A SELL. Lead-Salt diode lasers analyze automotive exhaust. Laser Focus, 16, 86-89(1980).
[6] IKE C H, JAY H A. Stacked multistage JouleThomson cryostat: US, 5590538[P]. 19970107.
[7] CHEN G D, GONG M Q, WU Y. Experimental investigation on the miniature mixed refrigerant cooler driven by a minicompress [C]SPIE, lo, USA, 2018, 10626: 19.
[8] HAISHAN C, LEROU P, MUDALIAR A V, et al. Analysis of multistage JouleThomson microcoolers [C]International Cryocooler Conference, Boulder, USA, 2011, 16: 481487.
[13] S M MARCO, L S HAN. A note on limiting laminar Nusselt number in ducts with constant temperature gradient by analogy to thin-plate theory. Journal of Fluids Engineering, 77, 625-630(1955).
[14] WANG Yang. Research on Irreversible Loss in flow mixed process[D]. Harbin: Harbin Institute of Technology, 2008. (in Chinese)
[15] LITTLE W A. Fast cooldown miniature refrigerats: US, 4489570[P]. 19841225.
[16] HAISHAN C, VANAPALLI S, HOLL H J, et al. JouleThomson microcooling developments at University of Twente[C]IOP Conference Series: Materials Science Engineering, 2017, 171: 012064.
[17] CHEN Guobang. Low Temperature Engineering Materials [M]. Hangzhou: Zhejiang University Press, 1998. (in Chinese)