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Published May 10, 2002 | public
Book Section - Chapter Open

The cryogenic system for the SLAC E158 experiment

Weisend, J. G., II
Boyce, R.
Burgess, W.
Candia, A.
Carr, R.
Gao, J.
Gustafsson, K.
Jones, C.
Kaminskas, W.
Oxoby, G.
McKeown, R.
Quack, H.
Scott, A.
Weber, T.
Others:
Breon, Susan
Dipirro, Michael
Glaister, David
Hull, John
Kittel, Peter
Pecharsky, Vitalij
Radebaugh, Ray
Theilacker, Jay
Van Sciver, Steven
Weisend, John, II
Zeller, Albert

Abstract

E158 is a fixed target experiment at SLAC in which high energy (up to 48 GeV) polarized electrons are scattered off the unpolarized electrons in a 1.5 m long liquid hydrogen target. The total volume of liquid hydrogen in the system is 47.1. The beam can deposit as much as 700 W into the liquid hydrogen. Among the requirements for the system are: that density fluctuations in the liquid hydrogen be kept to a minimum, that the target can be moved out of the beam line while cold and replaced to within 2 mm and that the target survive lifetime radiation doses of up to 1×106 Gy. The cryogenic system for the experiment consists of the target itself, the cryostat containing the target, a refurbished CTI 4000 refrigerator providing more than 1 kW of cooling at 20 K and associated transfer lines and valve boxes. This paper discusses the requirements, design, construction, testing and operation of the cryogenic system. The unique features of the design associated with hydrogen safety and the high radiation field in which the target resides are also covered.

Additional Information

©2002 American Institute of Physics. This work would not have been possible without the dedicated support of the SLAC Experimental Facilities Dept. In particular, the cryogenic technicians led by M. Racine & the electronics technicians led by G. Oxoby made major contributions. P. Anthony provided significant assistance with the BridgeView® programming. The authors also wish to thank the external hydrogen safety committee: J. Novak, J. Mark and T. Lucas. Work supported by Department of Energy contract DE-AC03-76SF00515 and NSF grant PHY-0071856.

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