4 K GM-type pulse tube cryocooler with large cooling capacity 4 K 大冷量 GM 型脉冲管制冷机

Liu，Xu Ming1,2; Pan，Chang Zhao1,2; Zhang，Yu1; Liao，Yi1; Guo，Wei Jie2; Yu，Da Peng1,2

2023-10-05

10.7498/aps.72.20230910

Wuli Xuebao/Acta Physica Sinica   影响因子和分区

1000-3290

Owing to the advantages of large cooling capacity, low vibration and high reliability, GM-type pulse tube cryocoolers at liquid helium temperature have important applications in frontier fields of condensed matter physics research, quantum computing, etc. The phase shifter has an important influence on the cooling performance of pulse tube cryocooler. Previous researches on the phase shifter of GM-type pulse tube cryocooler mainly focused on the effect of a single phase shifter on the performance of the cryocooler at liquid helium temperature. In this paper, based on Sage software, a simulation model of a 4 K two-stage gas-coupled GM-type pulse tube cryocooler is first designed and constructed. The influence of the phase shifters of the two stages on the first-stage and the second-stage temperatures are calculated. The adjustment and optimization process of the cryocooler to obtain the liquid helium temperature is studied. Numerical simulations are given below. 1) The lowest temperature of the model is only about 100 K when the phase shifters of the two stages are closed. The lowest temperature of the model can be reduced to 2.7 K by optimizing the first-stage orifice valve, the second-stage orifice valve, the first-stage double-inlet valve and the second-stage double-inlet valve in sequence. 2) The first-stage orifice valve, the second-stage orifice valve, and the second-stage double-inlet valve have a significant effect on reducing the cooling temperature of the second stage, while the first-stage double-inlet valve has little effect on reducing the temperature of the second stage. 3) The first-stage orifice valve and the second-stage double-inlet valve have a significant effect on reducing the cooling temperature of the first stage, and the first-stage double-inlet valve has little effect on reducing the temperature of the first stage. The second-stage orifice valve will worsen the first stage performance. Finally, an experimental system is constructed. The lowest temperature of the experimental prototype can reach 3.1 K, and the cooling capacity of 0.8 W can be produced at 4.2 K, which is presently the best result obtained by the domestic two-stage gas-coupled valve-separated GM type pulse tube cryocooler. This research can not only promote the independent construction of domestic 4 K refrigeration platform, but also support the relevant frontier basic scientific research and the development of important scientific instruments and equipment. In the future, the structure of the first-stage cold-end heat exchanger and the impedance matching between the compressor and the cryocooler will be improved, and the gas coupling characteristics inside the cryocooler will be studied theoretically and experimentally in depth.

GM type liquid helium temperature pulse tube cryocooler two-stage gas-coupled

SCI ; EI

中文

第一

Physics

Physics, Multidisciplinary

WOS:001092527800012

CHINESE PHYSICAL SOC

20234314940012

Computer software ; Cryogenic equipment ; Orifices ; Phase shifters ; Quantum computers ; Superfluid helium ; Tubes (components)

Pipe, Piping and Pipelines:619.1 ; Heat Transfer:641.2 ; Cryogenic Equipment and Components:644.5 ; Electronic Circuits Other Than Amplifiers, Oscillators, Modulators, Limiters, Discriminators or Mixers:713.5 ; Computer Systems and Equipment:722 ; Computer Software, Data Handling and Applications:723 ; Chemical Products Generally:804

PHYSICS

2-s2.0-85174519939

Scopus

1.Shenzhen Institute for Quantum Science and Engineering,Southern University of Science and Technology,Shenzhen,518055,China
2.International Quantum Academy,Shenzhen,518048,China

Liu，Xu Ming,Pan，Chang Zhao,Zhang，Yu,等. 4 K GM-type pulse tube cryocooler with large cooling capacity 4 K 大冷量 GM 型脉冲管制冷机[J]. Wuli Xuebao/Acta Physica Sinica,2023,72(19).

Liu，Xu Ming,Pan，Chang Zhao,Zhang，Yu,Liao，Yi,Guo，Wei Jie,&Yu，Da Peng.(2023).4 K GM-type pulse tube cryocooler with large cooling capacity 4 K 大冷量 GM 型脉冲管制冷机.Wuli Xuebao/Acta Physica Sinica,72(19).

Liu，Xu Ming,et al."4 K GM-type pulse tube cryocooler with large cooling capacity 4 K 大冷量 GM 型脉冲管制冷机".Wuli Xuebao/Acta Physica Sinica 72.19(2023).