Entropic Entanglement: Information Prison Break

Yosifov, Alexander Y.; Filipov, L.

doi:10.1155/2017/8621513

Cited by 5 publications

(13 citation statements)

References 32 publications

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“…Recent studies of quantum information and quantum gravity [6,7,8,12,13,14,15,16,17] support the scrambling time as the appropriate time scale at which black holes begin releasing information via Hawking radiation. Note that in such generic early evaporation scenarios where quantum information begins leaking out of order the scrambling time, not every…”

Section: Fast Scramblersmentioning

confidence: 99%

Quantum Complexity and Chaos in Young Black Holes

Yosifov

Filipov

2019

Universe

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We argue the problem of calculating retention time scales in young black holes is a problem of relative state complexity. In particular, we suggest that Alice's ability to estimate the time scale for a perturbed black hole to release the extra n qubits comes down to her decoding the Hilbert space of the Hawking radiation. We then demonstrate the decoding task Alice faces is very difficult, and in order to calculate the relative state complexity she would either need to act with an exponentially complex unitary operator or apply an extremely fine-tuned future precursor operator to the perturbed state in SU

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Section: Fast Scramblersmentioning

confidence: 99%

Quantum Complexity and Chaos in Young Black Holes

Yosifov

Filipov

2019

Universe

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“…The nonviolent nonlocality proposal [10][11][12][13][14][15] (also [16]), by contrast, does not eliminate the event horizon. Local low-energy quantum field theory outside the horizon is supplemented by nonlocal couplings with degrees of freedom inside the black hole, leading to soft quantum metric fluctuations whose wavelengths are not set by the Planck scale but instead by the much larger Schwarzschild radius.…”

Section: Introductionmentioning

confidence: 95%

Probing near-horizon fluctuations with black hole binary mergers

Liebling¹,

Lippert²,

Kavic³

2018

J. High Energ. Phys.

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The strong version of the nonviolent nonlocality proposal of Giddings predicts "strong but soft" quantum metric fluctuations near black hole horizons in an attempt to resolve the information paradox. To study observable signatures of this proposal, we numerically solve Einstein's equations modified by these fluctuations and analyze the gravitational wave signal from the inspiral and merger of two black holes. In a model of evolution for such fluctuations, we show that they lead to significant deviations in the observed waveform, even when the black holes are still well separated, and could potentially be observed by aLIGO.

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“…Consider the following toy model [26][27][28]. Suppose we have a pure state collapse jΨ in the metric (13).…”

Section: Low-curvature General Relativitymentioning

confidence: 99%

Aspects of Semiclassical Black Holes: Development and Open Problems

Yosifov

2021

Advances in High Energy Physics

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The current work is a review, dedicated to the study of semiclassical aspects of black holes. We begin by briefly looking at the main statements of general relativity. We then consider the Schwarzschild, Kerr, and Reissner-Nordstrom black hole solutions and discuss their geometrical properties. Later, the thermodynamic nature of black holes is established. In light of this, we formulate the information loss problem and present the most promising approaches for addressing it with emphasis on introducing low-energy quantum corrections to the classical general relativity picture. Finally, in the context of multimessenger astronomy, we look at naked singularities as possible gravitational collapse endstates and their role in the unitarity of quantum mechanics and discuss their observational prospects.

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Entropic Entanglement: Information Prison Break

Cited by 5 publications

References 32 publications

Quantum Complexity and Chaos in Young Black Holes

Quantum Complexity and Chaos in Young Black Holes

Probing near-horizon fluctuations with black hole binary mergers

Aspects of Semiclassical Black Holes: Development and Open Problems

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