Temperature stabilization of a lab space at 10 mK-level over a day

Author(s)

Fife, Dylan; Shin, Dong-Chel; Sudhir, Vivishek

Abstract

Temperature fluctuations over long time scales (≳ 1 h) are an insidious problem for precision measurements. In optical laboratories, the primary effect of temperature fluctuations is drifts in optical circuits over spatial scales of a few meters and temporal scales extending beyond a few minutes. We present a lab-scale environment temperature control system approaching 10 mK-level temperature instability across a lab for integration times above an hour and extending to a day. This is achieved by passive isolation of the laboratory space from the building walls using a circulating air gap and an active control system feeding back to heating coils at the outlet of the laboratory’s Heating-Ventilation-Air-Conditioning (HVAC) unit. These techniques together result in 20 dB suppression of the temperature power spectrum across the lab at 10−4 Hz—approaching the limit set by statistical coherence of the temperature field—and 10 mK Allan deviation around 15 °C after an hour of averaging, which is an order of magnitude better than any previous report for a full laboratory.

Date issued

2024-09-27

URI

https://hdl.handle.net/1721.1/165096

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering
LIGO (Observatory : Massachusetts Institute of Technology)

Journal

Review of Scientific Instruments

Publisher

AIP Publishing

Citation

Dylan Fife, Dong-Chel Shin, Vivishek Sudhir; Temperature stabilization of a lab space at 10 mK-level over a day. Rev. Sci. Instrum. 1 September 2024; 95 (9): 095116.

Version: Final published version