• 30 W at 50 K Single-Stage Coaxial Pulse Tube Cooler with Tapered Buffer Tube 

      Spoor, P. S. (Georgia Institute of TechnologyICC Press, 2008-05)
      The performance of large-capacity single-stage pulse-tube coolers at temperatures below 70 K is often hampered by Rayleigh streaming, or the natural boundary-layer convection that occurs in the buffer tube (‘pulse tube’). ...
    • Development of a High Frequency Pulse Tube 

      Emery, N.; Caughley, A. J.; Glasson, N.; Tucker, A. S.; Gschwendtner, M. A. (Georgia Institute of TechnologyICC Press, 2008-05)
      A single-stage pulse tube cryocooler has been designed and fabricated to provide cooling at 50 K for a high temperature superconducting magnet. Sage software was used to design the pulse tube, with a predicted 25 W of ...
    • Development of SITP’s Large Capacity High Frequency Coaxial Pulse Tube Cryocoolers 

      Dang, H. Z.; Wang, L. B.; Wu, Y. N.; Li, S. S.; Yang, K. X.; Shen, W. B.; Fu, H. (Georgia Institute of TechnologyICC Press, 2008-05)
      Large capacity high frequency single-stage coaxial inertance pulse tube cryocoolers have been developed and are becoming mature in SITP/CAS. The main objective of the development is to provide larger low-noise cooling ...