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Hauptverfasser: Viotti, Ludmila, Lombardo, Fernando C., Villar, Paula I.
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2401.12106
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author Viotti, Ludmila
Lombardo, Fernando C.
Villar, Paula I.
author_facet Viotti, Ludmila
Lombardo, Fernando C.
Villar, Paula I.
contents Superconducting circuits reveal themselves as promising physical devices with multiple uses. Within those uses, the fundamental concept of the geometric phase accumulated by the state of a system shows up recurrently, as, for example, in the construction of geometric gates. Given this framework, we study the geometric phases acquired by a paradigmatic setup: a transmon coupled to a superconductor resonating cavity. We do so both for the case in which the evolution is unitary and when it is subjected to dissipative effects. These models offer a comprehensive quantum description of an anharmonic system interacting with a single mode of the electromagnetic field within a perfect or dissipative cavity, respectively. In the dissipative model, the non-unitary effects arise from dephasing, relaxation, and decay of the transmon coupled to its environment. Our approach enables a comparison of the geometric phases obtained in these models, leading to a thorough understanding of the corrections introduced by the presence of the environment.
format Preprint
id arxiv_https___arxiv_org_abs_2401_12106
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Geometric Phase of a Transmon in a Dissipative Quantum Circuit
Viotti, Ludmila
Lombardo, Fernando C.
Villar, Paula I.
Quantum Physics
Superconductivity
Superconducting circuits reveal themselves as promising physical devices with multiple uses. Within those uses, the fundamental concept of the geometric phase accumulated by the state of a system shows up recurrently, as, for example, in the construction of geometric gates. Given this framework, we study the geometric phases acquired by a paradigmatic setup: a transmon coupled to a superconductor resonating cavity. We do so both for the case in which the evolution is unitary and when it is subjected to dissipative effects. These models offer a comprehensive quantum description of an anharmonic system interacting with a single mode of the electromagnetic field within a perfect or dissipative cavity, respectively. In the dissipative model, the non-unitary effects arise from dephasing, relaxation, and decay of the transmon coupled to its environment. Our approach enables a comparison of the geometric phases obtained in these models, leading to a thorough understanding of the corrections introduced by the presence of the environment.
title Geometric Phase of a Transmon in a Dissipative Quantum Circuit
topic Quantum Physics
Superconductivity
url https://arxiv.org/abs/2401.12106