Closed-cycle gas flow system for cooling of high Tc d.c. SQUID magnetometers

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Bosch, P.J. van den and Holland, H.J. and Brake, H.J.M. ter and Rogalla, H. (1995) Closed-cycle gas flow system for cooling of high Tc d.c. SQUID magnetometers. Cryogenics, 35 (2). pp. 109-116. ISSN 0011-2275

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Abstract:A high Tc.d.c SQUID based magnetometer for magnetocardiography is currently under development at the University of Twente. Since such a magnetometer should be simple to use, the cooling of the system can be realized most practically by means of a cryocooler. A closed-cycle gas flow cooling system incorporating such a cooler has been designed, constructed and tested. The aimed resolution of the magnetometer is 0.1 pT Hz−1/2. The required operating temperature for the SQUIDs is 30 to about 77 K with a stability of 2 × 10−4 K Hz−1/2. After a cool-down time of 1–2 h, a stationary cooling power of at least 0.2 W is required. In the design, helium gas is cooled by a Leybold Heraeus RG 210 cryocooler, transported through a gas line, and subsequently passed through a heat exchanger on which SQUIDs can be installed. The lowest obtainable SQUID heat exchanger temperature is 31 ± 2 K. This can be reached in roughly 2–3 h with an optimal mass flow with respect to the cooling power of 6 × 10−6 kg s−1. At this mass flow the cooling power at the SQUID heat exchanger is 0.2 W at 42 K and roughly 1.2 W at 77 K. A temperature stability of 0.05 K was measured at a SQUID heat exchanger temperature of 54 K and a mass flow of 3 × 10kg s−5. The experience gained with this large cooling system will be used in the design of a smaller configuration cooling system, incorporating miniature Stirling cryocoolers. In this paper the design and the construction of the present closed-cycle system are described and test results are presented.

Item Type:Article
Copyright:© 1995 Elsevier Science
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Science and Technology (TNW)
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Link to this item:http://purl.utwente.nl/publications/24260
Official URL:http://dx.doi.org/10.1016/0011-2275(95)92879-W
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