Video URL

https://pirsa.org/23120035

Quantum Analysis of the Bianchi IX model: Exploring Chaos

Fernandez Uria, S. (2023). Quantum Analysis of the Bianchi IX model: Exploring Chaos. Perimeter Institute for Theoretical Physics. https://pirsa.org/23120035

Fernandez Uria, Sara. Quantum Analysis of the Bianchi IX model: Exploring Chaos. Perimeter Institute for Theoretical Physics, Dec. 07, 2023, https://pirsa.org/23120035 

          @misc{ scivideos_PIRSA:23120035,
            doi = {10.48660/23120035},
            url = {https://pirsa.org/23120035},
            author = {Fernandez Uria, Sara},
            keywords = {Quantum Gravity},
            language = {en},
            title = {Quantum Analysis of the Bianchi IX model: Exploring Chaos},
            publisher = {Perimeter Institute for Theoretical Physics},
            year = {2023},
            month = {dec},
            note = {PIRSA:23120035 see, \url{https://scivideos.org/index.php/pirsa/23120035}}
          }

Sara Fernandez Uria University of the Basque Country

DOI 10.48660/23120035
Source Repository PIRSA
Collection
Talk Type Scientific Series
Subject

Abstract

According to the Belinski-Khalatnikov-Lifshitz conjecture, the Bianchi IX spacetime describes the evolution of each spatial point close to a generic spacelike singularity. However, near the singularity, quantum effects are expected to be relevant. Therefore, in this work a quantum analysis of the model is performed, mainly focusing on its chaotic nature. Considering some minimal approximations, it is possible to encode all the information of the quantum degrees of freedom in certain canonical variables, expanding thus the classical phase space. In this way, we can apply the usual methods of dynamical systems for studying chaos. In particular, two techniques are considered. On the one hand, an analytical study is carried out, which provides an isomorphism between the quantum dynamics of Bianchi IX and the geodesic flow on a Riemannian manifold. On the other hand, by means of numerical simulations, the fractal dimension of the boundary between points with different outcome in the space of initial data is studied. The main conclusion is that, although the quantum system is chaotic, the quantum effects considerably reduce this behavior as compared to its classical counterpart.

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