Development of a liquid nitrogen precooled co-axial pulse tube refrigerator

We report on the design and test of a three-stage refrigerator, consisting of a liquid nitrogen bath with heat exchangers and two subsequent pulse tube stages. The liquid nitrogen bath serves for precooling the oscillating 4He-gas flow. The PTR stages are operated in orifice and double-inlet mode wi

Pulse tube refrigeration offers the potential to develop an inherently reliable cryocooler. Unlike Stirling or Gifford-McMahon cryocoolers the pulse tube has no active components at low temperature. Refrigeration results from a process known as surface heat pumping involving the thermal interaction

This paper describes the cooling performance of a pulse tube stage extending to room temperature which is precooled by a singlestage GM refrigerator. With this system it was possible to reach liquid helium temperatures without using rare earth compounds as regenerator material. Instead the regenerat

A study on the experimental performance of a hybrid cooler is presented. The two-stage unit consists of a commercial single-stage GM refrigerator to precool a pulse tube stage capable of reaching a minimum temperature of 2.2 K. The pressure waves for both stages are generated separately by independe

The orifice pulse tube refrigerator is a new type of cryocooler which was reported to be capable of reaching 60 K. The present authors have achieved a temperature of 49 K for the first time with a single-stage orifice pulse tube refrigerator by improving the regenerator, the hot end heat exchanger a