Measurement of the accumulation of water ice on optical components in cryogenic vacuum environments

Trevor M. Moeller; L. Montgomery Smith; Frank G. Collins; Jesse M. Labello; James P. Rogers; Heard S. Lowry; Dustin H. Crider

doi:10.1117/1.OE.51.11.115601

2 November 2012 Measurement of the accumulation of water ice on optical components in cryogenic vacuum environments

Trevor M. Moeller, L. Montgomery Smith, Frank G. Collins, Jesse M. Labello, James P. Rogers, Heard S. Lowry, Dustin H. Crider

Author Affiliations +

Optical Engineering, Vol. 51, Issue 11, 115601 (November 2012). https://doi.org/10.1117/1.OE.51.11.115601

Abstract

Standard vacuum practices mitigate the presence of water vapor and contamination inside cryogenic vacuum chambers. However, anomalies can occur in the facility that can cause the accumulation of amorphous water ice on optics and test articles. Under certain conditions, the amorphous ice on optical components shatters, which leads to a reduction in signal or failure of the component. An experiment was performed to study and measure the deposition of water (H₂O) ice on optical surfaces under high-vacuum cryogenic conditions. Water was introduced into a cryogenic vacuum chamber, via a hydrated molecular sieve zeolite, through an effusion cell and impinged upon a quartz-crystal microbalance (QCM) and first-surface gold-plated mirror. A laser and photodiode setup, external to the vacuum chamber, monitored the multiple-beam interference reflectance of the ice-mirror configuration while the QCM measured the mass deposition. Data indicates that water ice, under these conditions, accumulates as a thin film on optical surfaces to thicknesses over 45 microns and can be detected and measured by nonintrusive optical methods which are based upon multiple-beam interference phenomena. The QCM validated the interference measurements. This experiment established proof-of-concept for a miniature system for monitoring ice accumulation within the chamber.

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Trevor M. Moeller, L. Montgomery Smith, Frank G. Collins, Jesse M. Labello, James P. Rogers, Heard S. Lowry, and Dustin H. Crider "Measurement of the accumulation of water ice on optical components in cryogenic vacuum environments," Optical Engineering 51(11), 115601 (2 November 2012). https://doi.org/10.1117/1.OE.51.11.115601

Published: 2 November 2012

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