An off-shell Hessian criterion H = S'_W(r_h) T'(r_h) governs thermodynamic stability of higher-curvature black holes, recovering the temperature-slope rule on physical branches and producing mean-field critical exponents.
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gr-qc 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Computes Weinhold thermodynamic geometry, rectangular heat engine efficiency, and topological charges for Sharma-Mittal corrected ModMax-dRGT black holes, showing parameter influences on efficiency and critical points.
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Off-shell Hessian thermodynamic stability of higher-curvature black holes
An off-shell Hessian criterion H = S'_W(r_h) T'(r_h) governs thermodynamic stability of higher-curvature black holes, recovering the temperature-slope rule on physical branches and producing mean-field critical exponents.
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Thermodynamic Geometry, Heat Engines, and Topology of Sharma--Mittal ModMax-dRGT Black Holes
Computes Weinhold thermodynamic geometry, rectangular heat engine efficiency, and topological charges for Sharma-Mittal corrected ModMax-dRGT black holes, showing parameter influences on efficiency and critical points.