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Cite Publication Date: Jun 1, 2010 | |
 Citations: 4 |  License type: other-oa |
Affiliation: University of California, Berkeley
The development of Superconducting QUantum Interference Device (SQUID)-based magnetometer for two applications, in vivo prepolarized, ultra-low field MRI of humans and dispersive readout of SQUIDs for micro- and nano-scale magnetometery, are the focus of this thesis.
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