Installing scientific instruments into a cold LHe dewar - The Gravity Probe B approachGravity Probe B is an orbital test of Einstein's general theory of relativity using gyroscopes. The precession of the gyroscopes will measure both the geodetic effect (6.6 arcsec/yr) through the curved space-time surrounding the earth and the motional effect (0.042 arcsec/yr) due to the rotating earth dragging space-time around with it. To achieve the extraordinary accuracies needed to measure these small precessions, it is necessary to have the gyroscopes operating in the following environments: a vacuum of less than 10 exp -10 torr; an acceleration level of less than 10 exp -10 g's; a magnetic field of less than 10 exp -7 gauss; and a temperature near 2 K. This paper discusses designs that allow scientific instruments to be installed into a dewar at 4.2 K. Methods for structurally supporting the instruments, transferring heat across joints at low temperature in vacuum, and excluding air during the insertion process are discussed. The structural support method is designed for Shuttle launch loads.
Document ID
19920030804
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Parmley, Richard T. (Lockheed Missiles and Space Co. Palo Alto, CA, United States)
Kusunic, Keith (Lockheed Missiles and Space Co. Palo Alto, CA, United States)
Reynolds, Gary (Lockheed Missiles and Space Co. Palo Alto, CA, United States)
Stephenson, Sam (Lockheed Research Laboratories Palo Alto, CA, United States)
Alexander, Keith (Kadel Engineering Danville, IN, United States)