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Science 16 November 2001:
Vol. 294. no. 5546, pp. 1495 - 1501
DOI: 10.1126/science.1064761
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Review
Spin Ice State in Frustrated Magnetic Pyrochlore Materials
Steven T. Bramwell,1
Michel J. P. Gingras23*
A frustrated system is one whose symmetry precludes
the possibility that every pairwise interaction ("bond") in the
system can be satisfied at the same time. Such systems are common in all areas of physical and biological science. In the most extreme cases, they can have a disordered ground state with "macroscopic" degeneracy; that is, one that comprises a huge number of equivalent states of the same energy. Pauling's description of the
low-temperature proton disorder in water ice was perhaps the first
recognition of this phenomenon and remains the paradigm. In recent
years, a new class of magnetic substance has been characterized, in
which the disorder of the magnetic moments at low temperatures is
precisely analogous to the proton disorder in water ice. These
substances, known as spin ice materials, are perhaps the "cleanest"
examples of such highly frustrated systems yet discovered. They offer
an unparalleled opportunity for the study of frustration in magnetic systems at both an experimental and a theoretical level. This article
describes the essential physics of spin ice, as it is currently
understood, and identifies new avenues for future research on related
materials and models.
1 Department of Chemistry, University College
London, 20 Gordon Street, London WC1H 0AJ, UK.
2 Department of Physics, University of Waterloo,
Waterloo, Ontario, N2L-3G1, Canada.
3 Canadian
Institute for Advanced Research, 180 Dundas Street, Toronto, Ontario
M5G 1Z8, Canada.
*
To whom correspondence should be addressed. E-mail:
gingras{at}gandalf.uwaterloo.ca.
Read the Full Text
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