Higher-order terms in an infinite tower of higher-derivative gravity regularize a 5D Proca-Maxwell system, creating frozen regular cores that mimic extremal black holes and satisfy all energy conditions.
Quasinormal modes of regular black holes surrounded by skewed dark matter distributions
2 Pith papers cite this work. Polarity classification is still indexing.
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gr-qc 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Thermodynamic analysis of the Dymnikova-Letelier regular black hole reveals string-fluid-dependent phase transitions, while sixth-order WKB shows stable scalar quasinormal modes with shifted frequencies and damping rates.
citing papers explorer
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Proca-Maxwell System in an Infinite Tower of Higher-Derivative Gravity
Higher-order terms in an infinite tower of higher-derivative gravity regularize a 5D Proca-Maxwell system, creating frozen regular cores that mimic extremal black holes and satisfy all energy conditions.
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Thermodynamics and quasinormal modes of the regular Dymnikova-Letelier black hole
Thermodynamic analysis of the Dymnikova-Letelier regular black hole reveals string-fluid-dependent phase transitions, while sixth-order WKB shows stable scalar quasinormal modes with shifted frequencies and damping rates.