Exact rotating dilatonic solutions exist in ModMax electrodynamics without a Maxwell analogue, including NUT and asymptotically flat cases plus a black-hole regime satisfying the null energy condition exterior to the horizon.
Accelerated black holes beyond Maxwell’s electrodynamics
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Numerical simulations show Shannon entropy and MIPP indicators distinguish chaotic from regular orbits of charged particles near weakly magnetized black holes in Einstein-ModMax theory, with parameters restricted by EHT shadow observations.
The paper derives GUP-modified Hawking radiation spectra and Gauss-Bonnet light deflection angles for Einstein-Dyonic-ModMax black holes in vacuum and plasma, along with quantum-corrected thermodynamics showing phase transitions.
citing papers explorer
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Exact rotating dilatonic branch in ModMax electrodynamics without Maxwell analogue
Exact rotating dilatonic solutions exist in ModMax electrodynamics without a Maxwell analogue, including NUT and asymptotically flat cases plus a black-hole regime satisfying the null energy condition exterior to the horizon.
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Chaotic dynamics of charged particles near weakly magnetized black holes in Einstein-ModMax Theory
Numerical simulations show Shannon entropy and MIPP indicators distinguish chaotic from regular orbits of charged particles near weakly magnetized black holes in Einstein-ModMax theory, with parameters restricted by EHT shadow observations.
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Thermal and Optical Signatures of Einstein-Dyonic ModMax Black Holes with GUP and Plasma Modifications
The paper derives GUP-modified Hawking radiation spectra and Gauss-Bonnet light deflection angles for Einstein-Dyonic-ModMax black holes in vacuum and plasma, along with quantum-corrected thermodynamics showing phase transitions.