Kazushige Ueda scite author profile

The Minkowski vacuum state is expressed as an entangled state between the left and right Rindler wedges when it is constructed on the Rindler vacuum. In this paper, we further examine the entanglement structure and extend the expression to the future (expanding) and past (shrinking) Kasner spacetimes. This clarifies the origin of the quantum radiation produced by an UnruhDeWitt detector in uniformly accelerated motion in the four-dimensional Minkowski spacetime. We also investigate the two-dimensional massless case where the quantum radiation vanishes but the same entanglement structure exists.

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Vacuum decays around spinning black holes

Oshita

Ueda

Yamaguchi

2020

J. High Energ. Phys.

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We investigate a vacuum decay around a spinning seed black hole by using the Israel junction condition and conclude that the spin of black hole would suppress a vacuum decay rate compared to that for a non-spinning case, provided that the surface of vacuum bubble has its ellipsoidal shape characterized by the Kerr geometry. We also find out that in the existence of a near-extremal black hole, a false vacuum state can be more stabilized than the case of the Coleman-de Luccia solution. A few necessary assumptions to carry the calculations are discussed.

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Entanglement-induced quantum radiation

et al. 2017

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Quantum entanglement of the Minkowski vacuum state between left and right Rindler wedges generates thermal behavior in the right Rindler wedge, which is known as the Unruh effect. In this letter, we show that there is another consequence of this entanglement, namely entanglement-induced quantum radiation emanating from a uniformly accelerated object. We clarify why it is in agreement with our intuition that incoming and outgoing energy fluxes should cancel each other out in a thermalized state.Comment: 5 pages, 2 figure

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Conversion of squeezed gravitons into photons during inflation

2022

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Entanglement of the vacuum between left, right, future, and past: Dirac spinor in Rindler and Kasner spaces

et al. 2021

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We study the relations of the positive frequency mode functions of Dirac field in 4-dimensional Minkowski spacetime covered with Rindler and Kasner coordinates, and describe the explicit form of the Minkowski vacuum state with the quantum states in Kasner and Rindler regions, and analytically continue the solutions. As a result, we obtain the correspondence of the positive frequency mode functions in Kasner region and Rindler region in a unified manner which derives vacuum entanglement.

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Kazushige Ueda

Entanglement of the vacuum between left, right, future, and past: The origin of entanglement-induced quantum radiation

Vacuum decays around spinning black holes

Entanglement-induced quantum radiation

Conversion of squeezed gravitons into photons during inflation

Entanglement of the vacuum between left, right, future, and past: Dirac spinor in Rindler and Kasner spaces

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