Numerical ray-tracing of Vaidya black holes reveals a dynamical redshift ring that emerges, contracts inward, and brightens during accretion, alongside evolving shadows and lensing rings.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Dynamical evolution of Schwarzschild black holes produces new interior singularities absent in the static case, with resolution imposing highly restrictive conditions on gravitational collapse.
citing papers explorer
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Gravitational lensing and observational features of a dynamic black hole
Numerical ray-tracing of Vaidya black holes reveals a dynamical redshift ring that emerges, contracts inward, and brightens during accretion, alongside evolving shadows and lensing rings.
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Interior Dynamics of Regular Schwarzschild Black Holes
Dynamical evolution of Schwarzschild black holes produces new interior singularities absent in the static case, with resolution imposing highly restrictive conditions on gravitational collapse.