Magnetic Trapping of Spin-Polarized Atomic Hydrogen

Harald F. Hess; Greg P. Kochanski; John M. Doyle; Naoto Masuhara; Daniel Kleppner; Thomas J. Greytak

doi:10.7567/JJAPS.26S3.237

Japanese Journal of Applied Physics

Magnetic Trapping of Spin-Polarized Atomic Hydrogen

Harald F. Hess¹, Greg P. Kochanski¹, John M. Doyle¹, Naoto Masuhara¹, Daniel Kleppner¹ and Thomas J. Greytak¹

Copyright (c) 1987 The Japan Society of Applied Physics
Japanese Journal of Applied Physics, Volume 26, Number S3-1 Citation Harald F. Hess et al 1987 Jpn. J. Appl. Phys. 26 237 DOI 10.7567/JJAPS.26S3.237

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¹ AT&T Bell Laboratories, Murray Hill, N.J. 07974

² Department of Physics and Center for Materials Science and Engineering Massachusetts Institute of Technology, Cambridge, MA 02139

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Abstract

We have confined over 5×10¹² atoms of hydrogen in a static magnetic trap. The atoms are loaded into the trap by precooling with a dilution refrigerator. At operating densities near 1×10¹³ cm^-3 the gas is observed to be electron- and nuclear-polarized in the uppermost hyperfine state. The long lifetime of the trapped gas (over 20 minutes) suggests that it is thermally decoupled from the wall and has evaporatively cooled to a temperature of about 41 mK. The residual decay of the gas density is consistent with spin relaxation induced by dipolar interactions between atoms.

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