芯片级节流制冷器实验及红外探测器应用研究  

作　　者：童欣 夏明[1] 李淑芬 李家鹏[1] 槐阳 邱杰 TONG Xin;XIA Ming;LI Shufen;LI Jiapeng;HUAI Yang;QIU Jie(Kunming Institute of Physics,Kunming 650223,China)

机构地区：[1]昆明物理研究所,云南昆明650223

出　　处：《红外与激光工程》2024年第6期18-30,共13页Infrared and Laser Engineering

摘　　要：芯片级节流制冷器(Micro Miniature Refrigerator, MMR)是一种新型节流制冷器,其轴向尺寸大幅短于传统节流制冷器,能够显著降低与之适配的红外探测器体积。然而,目前的芯片级节流制冷器的红外探测器应用仍存在较多困难。为提升MMR的性能,使其满足红外探测器应用需求,建立了MMR计算模型以研究制冷器的流动换热以及工作特性并指导样机制造,模型计算结果与实验值符合良好;制造了MMR样机,并根据理论分析和实验结果提出了针对制冷器结构、材料、流道布置等优化方案,显著提升了制冷性能;进一步提出了能够适配红外探测器的MMR实验样机,该样机能够显著缩短红外探测器轴向尺寸,实现了高温60℃环境下38 s达到126 K制冷温度(使用200 mL气瓶常压下充注50 MPa氩气并将气瓶和样机放入60℃环境下保温2 h),能够满足320 pixel×256 pixel,像元间距15μm的中波红外探测器降温性能需求,并且较国外同类型探测器产品也具有一定技术优势。Objective The Micro Miniature Refrigerator(MMR)is a novel Joule-Thomson cryocooler manufactured by micro-machining technologies,its axial length is significantly shorter than traditional Joule-Thomson cryocoolers commonly employed in infrared detectors.MMRs can greatly reduce the size of infrared detectors upon successful implementation.However,contemporary MMR products encounter challenges such as relatively low cool-down rates,cooling power,and structural strength.To address these issues and enhance the cool-down performance of the MMR for effective application in infrared detectors,a calculation model describing flow and heat transfer besides working characteristics of the MMR is proposed and verified.MMR prototypes are fabricated and experimentally studied.Building upon theoretical analysis and experimental findings optimization methods including transitioning the MMR material from glass to metal and modifying the structure and channel patterns of the MMR are introduced,the cooling performance of the MMR is thus greatly improved.Furthermore,an integrated design incorporating an MMR into an infrared detector is also proposed.Methods A novel calculation model implemented through C language programming is proposed and verified by experiments,based on the calculation model the flow and heat transfer characteristics in micro-channels of MMR is obtained.The theoretical insights derived from the calculation model guide the fabrication of a glass MMR prototype.This prototype becomes the focal point of experimental studies,providing a tangible platform for validating the theoretical model.The liquefaction of the working fluid during experimentation serves as a crucial validation step,affirming the accuracy and applicability of the theoretical framework.Building upon theoretical analysis and experimental findings,optimization methods are introduced to address the identified challenges.Notably,significant improvements are achieved by transitioning the MMR material from glass to metal and incorporating adiabatic slots.Th

关 键 词：芯片级节流制冷器 性能优化 实验研究 红外探测器 

分 类 号：TB69[一般工业技术—制冷工程]