Thermodynamics of the first-order vortex lattice melting transition in YBa\(_2\)Cu\(_3\)O\(_{7-\delta}\)

Using the London approximation within the high field scaling regime, we calculate the jump in the specific heat \(\Delta c\) at the first-order melting transition of the vortex lattice in YBa\(_2\)Cu\(_3\)O\(_{7-\delta}\). This has recently been measured [A. Schilling et al., Phys. Rev. Lett. (78),...

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Bibliographic Details
Published in:arXiv.org 1997-12
Main Authors: Dodgson, Matthew J W, Geshkenbein, Vadim B, Nordborg, Henrik, Blatter, Gianni
Format: Article
Language:English
Subjects:
Scaling
Temperature dependence
Variations
Online Access:Get full text
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Summary:Using the London approximation within the high field scaling regime, we calculate the jump in the specific heat \(\Delta c\) at the first-order melting transition of the vortex lattice in YBa\(_2\)Cu\(_3\)O\(_{7-\delta}\). This has recently been measured [A. Schilling et al., Phys. Rev. Lett. (78), 4833 (1997)] and reported to be at least 100 times higher than expected from the fluctuations of field induced vortices alone. We demonstrate how the correct treatment of the temperature dependence of the model parameters, which are singular at the mean-field \(B_{c2}\) line, leads to good agreement between the predictions of the London model and the size of the experimental jump. In addition, we consider the changes in the slopes of the magnetization \(\Delta(\partial M/\partial T)\) and \(\Delta(\partial M/\partial H)\) at the transition. Using continuum anisotropic scaling theory we demonstrate the consistency of measurements at different angles of the magnetic field with respect to the crystal c-axis.
ISSN:2331-8422
DOI:10.48550/arxiv.9712145