Ultra-stable temperature and pressure control for the Habitable-zone Planet Finder spectrograph

Stefánsson, G.K.; Hearty, F.R.; Robertson, P.M.; Levi, E.I.; Mahadevan, S.; Anderson, T.B.; Monson, A.J.; Bender, C.F.; Halverson, S.P.; Li, Y.; Ramsey, L.W.; Roy, A.; Schwab, C.; Terrien, R.C.; Nelson, M.J.; Blank, B.

English Conference paper (Chapter in Book) Scientific

Published: Evans ChJ. Ground-based and Airborne Instrumentation for Astronomy VI. (2016) ISBN:9781510601956; 9781510601963 Paper: 990871

Identifiers

MTMT: 34058743
DOI: 10.1117/12.2233443
WoS: 000391509100198
Scopus: 85007275289

We present recent long-term stability test results of the cryogenic Environmental Control System (ECS) for the Habitable zone Planet Finder (HPF), a near infrared ultra-stable spectrograph operating at 180 Kelvin. Exquisite temperature and pressure stability is required for high precision radial velocity (< 1m=s) instruments, as temperature and pressure variations can easily induce instrumental drifts of several tens-to-hundreds of meters per second. Here we present the results from long-term stability tests performed at the 180K operating temperature of HPF, demonstrating that the HPF ECS is stable at the 0:6mK level over 15-days, and <10 -7 Torr over months. © 2016 SPIE.

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Ultra-stable temperature and pressure control for the Habitable-zone Planet Finder spectrograph

Stefánsson, G.K.; Hearty, F.R.; Robertson, P.M.; Levi, E.I.; Mahadevan, S.; Anderson, T.B.; Monson, A.J.; Bender, C.F.; Halverson, S.P.; Li, Y.; Ramsey, L.W.; Roy, A.; Schwab, C.; Terrien, R.C.; Nelson, M.J.; Blank, B.

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