Lyapunov exponents of charged probes capture the same cusp and transition points in dilatonic RN-AdS phase structure across Einstein and string frames, even though the exponent values themselves depend on frame for massive particles.
Frame dependence of bound on Lyapunov exponent in dilatonic Reissner-Nordstr¨ om-AdS and Kerr-Sen-AdS black holes
2 Pith papers cite this work. Polarity classification is still indexing.
fields
gr-qc 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Spinning test particles reveal that chaos bound violations in Kerr-Newman-AdS spacetime depend on the interplay of particle spin, black hole rotation, charge, and negative cosmological constant, with specific quenching and triggering conditions in Kerr-AdS and RN-AdS limits.
citing papers explorer
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Phase Transitions with Lyapunov Exponents under Einstein and String Frames in Dilatonic Reissner--Nordstr\"om--AdS Black Holes
Lyapunov exponents of charged probes capture the same cusp and transition points in dilatonic RN-AdS phase structure across Einstein and string frames, even though the exponent values themselves depend on frame for massive particles.
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Probing the chaos bound via spinning particles in Kerr-Newman-AdS spacetime
Spinning test particles reveal that chaos bound violations in Kerr-Newman-AdS spacetime depend on the interplay of particle spin, black hole rotation, charge, and negative cosmological constant, with specific quenching and triggering conditions in Kerr-AdS and RN-AdS limits.