Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
2011-08-17
PNAS October 4, 2011 vol. 108 no. 40 pp. 16549-16553
Physics
Condensed Matter
Strongly Correlated Electrons
Corrected version after acceptance for publication (minor text corrections and typo axis labeling of Fig. 3B). Journal referen
Scientific paper
The behaviour of matter near zero temperature continuous phase transitions, or 'quantum critical points' (QCPs) is a central topic of study in condensed matter physics. In fermionic systems, fundamental questions remain unanswered: the nature of the quantum critical regime is unclear because of the apparent breakdown of the concept of the quasiparticle, a cornerstone of existing theories of strongly interacting metals. Even less is known experimentally about the formation of ordered phases from such a quantum critical 'soup'. Here, we report a study of the specific heat across the phase diagram of the model system Sr3Ru2O7, which features an anomalous phase whose transport properties are consistent with those of an electronic nematic. We show that this phase, which exists at low temperatures in a narrow range of magnetic fields, forms directly from a quantum critical state, and contains more entropy than mean-field calculations predict. Our results suggest that this extra entropy is due to remnant degrees of freedom from the highly entropic state above T_c. The associated quantum critical point, which is 'concealed' by the nematic phase, separates two Fermi liquids, neither of which has an identifiable spontaneously broken symmetry, but which likely differ in the topology of their Fermi surfaces.
Bruin J. A. N.
Grigera S. A.
Kivelson Steven A.
Mackenzie Andrew Peter
Perry Randall S.
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