A system to provide sub-milliKelvin temperature control at T～300K for extreme precision optical radial velocimetry

机译：提供用于在T〜300K范围内实现亚密氏开氏温度控制的系统，以实现极高精度的光学径向测速

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We present preliminary results for the environmental control system from NEID, our instrument concept for NASA's Extreme Precision Doppler Spectrograph, which is now in development. Exquisite temperature control is a requirement for Doppler spectrographs, as small temperature shifts induce systematic Doppler shifts far exceeding the instrumental specifications. Our system is adapted from that of the Habitable Zone Planet Finder instrument, which operates at a temperature of 180K. We discuss system modifications for operation at T ～ 300K, and show data demonstrating sub-mK stability over two weeks from a full-scale system test.

机译：我们介绍了NEID的环境控制系统的初步结果。NEID是我们正在为NASA研制的极端精密多普勒光谱仪设计的仪器。精确的温度控制是多普勒光谱仪的要求，因为小的温度变化会导致系统性的多普勒频移，远远超出仪器的技术指标。我们的系统是根据可居住地带行星搜索仪的系统改编而成的，该仪的工作温度为180K。我们讨论了在T〜300K下运行的系统修改方案，并显示了从全面的系统测试来看两周内亚mK稳定性的数据。

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《Conference on ground-based and airborne instrumentation for astronomy VI》|2016年|990862.1-990862.8|共8页
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Paul Robertson; Frederick R. Hearty; Tyler B. Anderson; Guomundur K. Stefansson; Eric I. Levi; Chad F. Bender; Suvrath Mahadevan; Samuel P. Halverson; Andrew J. Monson; Lawrence W. Ramsey; Arpita Roy; Christian Schwab; Ryan C. Terrien; Matthew J. Nelson; Basil Blank;
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Doppler spectrographs; Environment control systems; Temperature control; Vacuum systems;

机译：多普勒光谱仪;环境控制系统;温度控制;真空系统;

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4. A system to provide sub-milliKelvin temperature control at T～300K for extreme precision optical radial velocimetry [C] . Paul Robertson, Frederick R. Hearty, Tyler B. Anderson, SPIE Conference on Ground-based and Airborne Instrumentation for Astronomy . 2016

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A system to provide sub-milliKelvin temperature control at T～300K for extreme precision optical radial velocimetry

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