Circular string entanglement entropy distinguishes topologically charged spacetimes by their deficit angles.
Cosmological complexity in K-essence.Phys
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
years
2026 3verdicts
UNVERDICTED 3representative citing papers
Nontrivial sound speed suppresses purity of the reduced density matrix, amplifies entropy and entanglement measures, and delays the onset of classicality in inflationary perturbations.
Infalling circular strings near black hole horizons show radial particle production and Krylov complexity that scales polynomially with initial position in the near-horizon thermal regime, with operator growth rate scaling linearly and supporting complexity-volume ideas.
citing papers explorer
-
Quantum Entanglement of Circular Strings as a Probe for Topologically Charged Spacetimes
Circular string entanglement entropy distinguishes topologically charged spacetimes by their deficit angles.
-
Quantum-information diagnostics of cosmological perturbations with nontrivial sound speed in inflation
Nontrivial sound speed suppresses purity of the reduced density matrix, amplifies entropy and entanglement measures, and delays the onset of classicality in inflationary perturbations.
-
Particle Production and Krylov Complexity of Circular Strings Near Black Hole Horizons
Infalling circular strings near black hole horizons show radial particle production and Krylov complexity that scales polynomially with initial position in the near-horizon thermal regime, with operator growth rate scaling linearly and supporting complexity-volume ideas.