1 |
S.G.Gilankar and P.K.Kush, "Performance of indigeniosly developed closed cycle refrigerator based cryopump," Proc. National Symp. on vacuum science & technology and its application to plasmas, pp. 157-160, 2005.
|
2 |
A.Hofmann, "Instructions for Using the Numeric Code FZKPTR for the design of Pulse Tube Cooler," Institute fur Technische Physik, 출처, 2003.
|
3 |
S.J.Park, etc., "Experimental research on 2 stage GM-type pulse tube refrigerator for cryopump," Superconductivity and Cryogenics, Vol. 12, pp. 29-33, 2010.
|
4 |
Re H.B.Kim, J.H.Park, "Research on fast cool-down of orifice pulse tube refrigerator by controlling orifice valve opening," Superconductivity and Cryogenics, vol. 12, pp. 36-40, 2010.
|
5 |
S.G.Gilankar and P.K.Kush, "Performance of indigeniosly developed closed cycle refrigerator based cryopump," Proc. National Symp. on vacuum science & technology and its application to plasmas, pp. 157-160, 2005.
|
6 |
C. Wang, "Efficient 10 K Pulse Tube Cryocoolers," Cryocoolers 13, Plenum Publishing Corp., New York, pp. 133-140, 2005.
|
7 |
W.W. Burt and C.K. Chan, "New mid-size high efficiency pulse tube coolers," Cryocoolers 9, Plenum Publishing Corp., New York, pp. 173-182, 1997.
|
8 |
W.E. Gifford and R.C. Longsworth, "Pulse-tube refrigeration," Trans. ASME: J Eng Ind Series B 86, pp.264-268, 1964.
DOI
|
9 |
E.I. Mikulin et al., "Low temperature expansion pulse tubes," Adv. Cryo. Eng. Vol. 29, pp. 629, 1984.
|
10 |
Radebaugh, R., Zimmerman, J., Smith, D. R., and Louie, B., "A comparison of three types of pulse tube refrigerators: new methods for reaching 60K," Adv. Cryogenic Engineering, vol. 31, pp. 779, 1986.
|
11 |
A. Ravex, I. Charles, L. Duband and J.M. Poncet, "Pulse tube development at CEA/SBT," Proc. of the IIR Conf., Sidney, Sept. 1999.
|
12 |
S.W. Zhu, P.Y. Wu and Z.Q. Chen, "Double inlet pulse tube refrigerators: an important improvement," Cryogenics 30, pp. 514-520, 1990.
DOI
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|