Evidence on the pseudogap and condensate from the electronic specific heat

Evidence on the pseudogap and condensate from the electronic specific heat

Evidence on the nature and hole density ( p) dependence of the normal state pseudogap is obtained from the electronic specific heat of several cuprate series, including new data for Bi:2212. The pseudogap energy decreases as E g( p)∼ J(1− p/ p crit) for p< p crit and is zero for p> p crit, whe...

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Bibliographic Details
Published in:The Journal of physics and chemistry of solids Vol. 62; no. 1; pp. 59 - 64
Main Authors: Loram, J.W., Luo, J., Cooper, J.R., Liang, W.Y., Tallon, J.L.
Format: Journal Article
Language:English
Published: Elsevier Ltd 2001
Subjects:
A. Cuprate series
D. Specific heat
D. Superconductivity
A. Cuprate series
D. Specific heat
D. Superconductivity
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Summary:Evidence on the nature and hole density ( p) dependence of the normal state pseudogap is obtained from the electronic specific heat of several cuprate series, including new data for Bi:2212. The pseudogap energy decreases as E g( p)∼ J(1− p/ p crit) for p< p crit and is zero for p> p crit, where p crit∼0.19 is close to optimal T c. This is correlated with an abrupt crossover from weak to strong superconductivity at p crit. We conclude that the pseudogap is an intrinsic feature of the normal state density of states that competes with the condensate for low energy spectral weight and is not related to precursor superconducting fluctuations. The linear p-dependencies of the entropy, the superfluid density and the states-non-conserving pseudogap are all interrelated, and appear to reflect strong correlations in the doped Mott insulator.
ISSN:0022-3697
1879-2553
DOI:10.1016/S0022-3697(00)00101-3