Realization of an All-Solid-State Cryocooler Using Optical Refrigeration

机译：利用光学制冷实现全固态低温制冷器

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Optical refrigeration of rare-earth-doped solids has reached the boiling point of argon, 87 K, and is expected to cool to that of nitrogen, 77 K, in the near future. This technology is poised to pave the way to compact, reliable, and vibration-free all-solid-state optical cryocoolers. By attaching the Yb:YLF cooling crystal to a cold finger via a double 90° kink thermal link, we have cooled a silicon temperature sensor to below 151 K. An advanced design of the thermal link and the clamshell surrounding the cooled assembly successfully controlled the flow of heat and radiation to allow cooling of a payload to cryogenic temperatures. Key elements of the design were a low-absorption thermal link material, an optimized thermal link geometry, and a spectrally-selective coating of the clamshell.

机译：稀土掺杂固体的光学制冷已达到氩气的沸点87 K，并有望在不久的将来冷却到氮气的沸点77K。这项技术有望为紧凑，可靠和无振动的全固态光学低温冷却器铺平道路。通过将Yb：YLF冷却晶体通过双90°扭结热链接连接到冷指上，我们已经将硅温度传感器冷却到151 K以下。热链接的先进设计和围绕冷却组件的翻盖成功地控制了温度传感器。热量和辐射流，以将有效载荷冷却至低温。设计的关键要素是低吸收热链接材料，优化的热链接几何形状以及翻盖的光谱选择性涂层。

著录项

来源
《SPIE Defense + Security Conference》|2018年|106260B.1-106260B.9|共9页
会议地点
作者
Junwei Meng; Alexander R. Albrecht; Aram Gragossian; Eric Lee; Azzurra Volpi; Mohammadreza Ghasemkhani; Markus P. Hehlen; Richard I. Epstein; Mansoor Sheik-Bahae;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
Optical refrigeration; cryocooler; thermal link; Yb:YLF crystal; rare-earth-doped solids; all-solid-state optical cryocooler.;

机译：光学制冷;低温冷却器热链接Yb：YLF晶体;稀土掺杂固体;全固态光学低温冷却器。;

相似文献

外文文献
中文文献
专利

1. Performance of the one-stage Joule-Thomson cryocooler fed with a nitrogen-hydrocarbon mixture and built from mass-produced components made for the refrigeration industry [J] . Dorosz Pawel, Chorowski Maciej, Piotrowska Agnieszka International Journal of Refrigeration . 2017,第期

机译：用氮气 - 碳氢化合物混合物喂养的单级Joule-Thomson冷冻机的性能，并由用于制冷工业制造的大规模生产的部件
2. Refrigeration mechanism of the gas parcels in pulse tube cryocoolers under different phase angles [J] . Xiaoqin Zhi, Limin Qiu, John M. Pfotenhauer, International Journal of Heat and Mass Transfer . 2016,第deca期

机译：不同相角下脉冲管低温冷却器中气体包裹的致冷机理
3. Theoretical and experimental investigation of pressure drop and refrigeration effect in pulse tube cryocooler [J] . Badgujar A. D., Atrey M. D. Proceedings of the Institution of Mechanical Engineers, Part C. Journal of mechanical engineering science . 2016,第11期

机译：脉冲管低温冷却器的压降和制冷效果的理论和实验研究
4. Realization of an All-Solid-State Cryocooler Using Optical Refrigeration [C] . Junwei Meng, Alexander R. Albrecht, Aram Gragossian, SPIE Defense + Security Conference . 2018

机译：使用光学制冷实现全固态低温冷却器
5. Improving the refrigeration and gas liquefaction performance of Gifford-McMahon and active magnetic regenerative cryocoolers: A study of flow maldistribution, unbalance, and asymmetry. [D] . Spearing, Ian Gregory. 2001

机译：改善Gifford-McMahon和有源磁蓄冷式制冷机的制冷和天然气液化性能：流量分布不均，不平衡和不对称性的研究。
6. First demonstration of an all-solid-state optical cryocooler [O] . Markus P. Hehlen, Junwei Meng, Alexander R. Albrecht, 2018

机译：全固态光学低温冷却器的首次演示
7. First demonstration of an all-solid-state optical cryocooler [O] . Markus P. Hehlen, Junwei Meng, Alexander R. Albrecht, 2018

机译：首先演示全固态光冷冻机
8. All-Solid Cryocooler to 100K Based on Optical Refrigeration in Yb:YLF Crystals [R] . Sheik-Bahae, M 2014

机译：基于Yb：YLF晶体光学制冷的全固态制冷机至100K

Realization of an All-Solid-State Cryocooler Using Optical Refrigeration

摘要

著录项

相似文献

相关主题

期刊订阅