Major
Physics
Anticipated Graduation Year
2021
Access Type
Open Access
Abstract
The information paradox brings us to inquiry on the effects on information of entangled systems. Having control over the formalism of quantum mechanics, consider the density matrices of n-dimensional systems as quantum information as they undergo random unitary transformations. Looking at the thermalization of information across the event-horizon, quantum information could be revealed almost immediately in the form of Hawking radiation. This thermalization, or fast scrambling, is interlaced within quantum information theory, so we describe randomization of quantum information using transformations on subsystems to explain how the latter half of the Page curve allows for scrambled information is instantly retrievable.
Faculty Mentors & Instructors
Walter Tangarife
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Creative Commons License
This work is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 License.
Black holes as Fast Scramblers
The information paradox brings us to inquiry on the effects on information of entangled systems. Having control over the formalism of quantum mechanics, consider the density matrices of n-dimensional systems as quantum information as they undergo random unitary transformations. Looking at the thermalization of information across the event-horizon, quantum information could be revealed almost immediately in the form of Hawking radiation. This thermalization, or fast scrambling, is interlaced within quantum information theory, so we describe randomization of quantum information using transformations on subsystems to explain how the latter half of the Page curve allows for scrambled information is instantly retrievable.