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亚开温区He Ⅱ超流涡旋制冷机的实验研究

廖奕王琨肖田田查奎帆 GÉRARD ROUILLE 王慧志刘思学潘长钊

物理学报2026，Vol.75Issue(9)：93-102,10.

物理学报2026，Vol.75Issue(9)：93-102,10.DOI:10.7498/aps.75.20251760

亚开温区He Ⅱ超流涡旋制冷机的实验研究

Experimental study on sub-kelvin He Ⅱ superfluid vortex cooler

廖奕 ¹王琨 ¹肖田田 ¹查奎帆 ²GÉRARD ROUILLE ³王慧志 ⁴刘思学 ⁴潘长钊²

作者信息

1. 南方科技大学,深圳 518055||深圳国际量子研究院,深圳 518048
2. 深圳国际量子研究院,深圳 518048
3. Institut d'Astrophysique Spatiale-Université Paris-Sud,91405 Orsay CEDEX,France
4. 北京空间飞行器总体设计部,航天器热控全国重点实验室,北京 100094
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摘要

Abstract

Ultra-low-temperature refrigeration is a key enabling technology for advanced physics experiments and space science missions.The superfluid vortex cooler(SVC)employs superfluid helium-4(He Ⅱ)as the working medium and offers several advantages,including low mechanical vibration,compact structure,gravity-insensitive operation,and continuous cooling capability. In this work,the cooling principle of the SVC is investigated,and an experimental SVC system is designed and constructed.The driving mechanism based on the fountain effect is analyzed,and a thermal-driven refrigeration cycle is established using a superfluid fountain pump. To ensure the experimental environment temperature is below the superfluid transition temperature,a 4He evaporation refrigerator precooled by a Gifford-McMahon cryocooler is implemented.Based on this cooling system,sub-kelvin refrigeration is successfully achieved with the SVC.The minimum temperature reaches 0.936 K,and the specific cooling power is 50 pW@1 K. Experimental results show that the cooling performance of the SVC is affected by parasitic heat loads.These include heat leakage due to thermal conduction within the system and thermal effects caused by non-ideal superleaks that fail to fully block the normal component of He Ⅱ.In particular,the competition between the enhanced superfluid mass flow driven by the fountain effect and the associated increase in heat leakage plays a critical role in determining both the achievable cooling power and the minimum temperature. The successful integration and operation of the fountain pump demonstrate its potential as a low-temperature circulation driver for closed-cycle dilution refrigerators operating in space.This work provides experimental validation of superfluid vortex cooling in the sub-kelvin regime,clarifies the key physical factors limiting its performance,and highlights its potential as a cost-effective alternative for future ultra-low-temperature applications.

关键词

超流氦/极低温制冷/超流涡旋制冷/喷泉效应

Key words

superfluid helium/ultra-low temperature refrigeration/superfluid vortex cooling/fountain effect

引用本文复制引用

廖奕,王琨,肖田田,查奎帆,GÉRARD ROUILLE,王慧志,刘思学,潘长钊..亚开温区He Ⅱ超流涡旋制冷机的实验研究[J].物理学报,2026,75(9):93-102,10.

基金项目

航天器热控全国重点实验室开放基金(批准号:NKLST-JJ-202501013)和广东省珠江人才支持计划(批准号:2023QN10X795)资助的课题. Project supported by the National Key Laboratory of Spacecraft Thermal Control,China(Grant No.NKLST-JJ-202501013)and the Pearl River Talent Plan of Guangdong Province,China(Grant No.2023QN10X795). （批准号:NKLST-JJ-202501013）

物理学报

ISSN：1000-3290

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