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Design and performance of cryogenic enclosures for long duration testing of large samples

✍ Scribed by W.O. Hamilton; P.B. Pipes; S. Kleve; T.P. Bernat; D.G. Blair; D.H. Darling; D. Dewitt; M.S. McAshan; R. Taber; S.P. Bough; W.M. Fairbank; W.P. Montgomery; W.C. Oelfke

Publisher
Elsevier Science
Year
1982
Tongue
English
Weight
516 KB
Volume
22
Category
Article
ISSN
0011-2275

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✦ Synopsis

We have designed a large helium dewar as part of an experiment to investigate gravitational radiation. Two such dewars have been constructed. Our use requires a nonmagnetic dewar to cool an aluminium antenna of approximately 5000 kg to below helium temperatures and to keep the antenna in a stable low temperature environment for extended time. This requires a low temperature volume of 1.5 m inner diameter and 3. 1 m length and a cooling system capable of efficiently removing the room temperature enthalpy of 8.5 x 108 J. Our solution to this problem is of wider application than simply gravity wave detection so we have discussed the design philosophy in some detail. As constructed, the apparatus uses less than 1 I of helium per hour when cold.

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## Abstract A cryogenic 200‐MHz RF transmit/receive probe (CryoProbe) made of copper and designed for murine brain studies is described. The probe operates at 30K and its performance was compared to a home‐made surface coil of equal dimensions and a mouse head volume resonator, both operating at ro