Quantum Schwarzschild space-time

Pawe{\l} Duch; Ryszard Pawe{\l} Kostecki

arXiv:1110.6566·gr-qc·January 13, 2012·2 cites

Quantum Schwarzschild space-time

Pawe{\l} Duch, Ryszard Pawe{\l} Kostecki

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TL;DR

This paper introduces a novel approach to deriving Schwarzschild space-time from quantum information theory without quantization, using geometric embeddings and rotations in a high-dimensional matrix space.

Contribution

It presents a new method to construct space-time geometries directly from quantum states, bypassing traditional quantization procedures.

Findings

01

Emergent Schwarzschild space-time from quantum states

02

Use of Poincaré-Wick rotation and Fronsdal embedding

03

No quantization needed for space-time emergence

Abstract

Using new approach to construction of space-times emerging from quantum information theory, we identify the space of quantum states that generates the Schwarzschild space-time. No quantisation procedure is used. The emergent space-time is obtained by the Poincar\'{e}-Wick rotation and Fronsdal embedding of certain submanifold of the riemanian manifold of six-dimensional strictly positive matrices with the Bogolyubov-Kubo-Mori metric.

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Taxonomy

TopicsNoncommutative and Quantum Gravity Theories · Relativity and Gravitational Theory · Quantum Mechanics and Applications