Spin-dependent quantum corrections to Schwarzschild black hole thermodynamics with barrow entropy and GUP
Eastern Mediterranean University · Akdeniz University
Abstract
In this paper, we investigate quantum gravitational corrections to Schwarzschild black hole thermodynamics by combining Barrow entropy with spin-dependent effects of the generalized uncertainty principle (GUP) within the tunneling formalism. By incorporating Zitterbewegung dynamics into the deformed Hamilton–Jacobi equation, we derive a spin-sensitive modification of the Hawking temperature that depends explicitly on the spin of the particle [Formula: see text] and the GUP parameter [Formula: see text]. This corrected temperature is used to compute thermodynamic quantities in the extended phase-space framework, including internal energy, Helmholtz free energy, pressure, enthalpy, Gibbs potential, and heat…
Citation impact
- FWCI
- 81.70
- Percentile
- 100%
- References
- 0
Authors
3Topics & keywords
- Black hole thermodynamics
- Semiclassical physics
- Black hole (networking)
- Unruh effect
- Hawking radiation
- Charged black hole
- Entropy (arrow of time)
- Quantum