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Quantifying the nonlinearity of a quantum oscillator

Quantifying the nonlinearity of a quantum oscillator
Quantifying the nonlinearity of a quantum oscillator
We address the quantification of nonlinearity for quantum oscillators and introduce two measures based on the properties of the ground state rather than on the form of the potential itself. The first measure is a fidelity-based one and corresponds to the renormalized Bures distance between the ground state of the considered oscillator and the ground state of a reference harmonic oscillator. Then, in order to avoid the introduction of this auxiliary oscillator, we introduce a different measure based on the non-Gaussianity (nG) of the ground state. The two measures are evaluated for a sample of significant nonlinear potentials and their properties are discussed in some detail. We show that the two measures are monotone functions with respect to each other in most cases, and this suggests that the nG-based measure is a suitable choice to capture the anharmonic nature of a quantum oscillator, and to quantify its nonlinearity independently of the specific features of the potential. We also provide examples of potentials where the Bures measure cannot be defined, due to the lack of a proper reference harmonic potential, while the nG-based measure properly quantifies their nonlinear features. Our results may have implications in experimental applications where access to the effective potential is limited, e.g., in quantum control, and protocols rely on information about the ground or thermal state
1050-2947
12104
Paris, Matteo G.A.
1de8962c-fdd0-45b2-bc45-a6e092ba7bb0
Genoni, Marco G.
939f146e-ed65-43f8-84b3-f8897e130e2d
Shammah, Nathan
bc9b5e0f-9a77-48a5-ae10-67f67def4933
Teklu, Berihu
3dec5c80-4602-4709-91a8-e7394a048c6d
Paris, Matteo G.A.
1de8962c-fdd0-45b2-bc45-a6e092ba7bb0
Genoni, Marco G.
939f146e-ed65-43f8-84b3-f8897e130e2d
Shammah, Nathan
bc9b5e0f-9a77-48a5-ae10-67f67def4933
Teklu, Berihu
3dec5c80-4602-4709-91a8-e7394a048c6d

Paris, Matteo G.A., Genoni, Marco G., Shammah, Nathan and Teklu, Berihu (2014) Quantifying the nonlinearity of a quantum oscillator. Physical Review A, 90 (1), 12104. (doi:10.1103/PhysRevA.90.012104).

Record type: Article

Abstract

We address the quantification of nonlinearity for quantum oscillators and introduce two measures based on the properties of the ground state rather than on the form of the potential itself. The first measure is a fidelity-based one and corresponds to the renormalized Bures distance between the ground state of the considered oscillator and the ground state of a reference harmonic oscillator. Then, in order to avoid the introduction of this auxiliary oscillator, we introduce a different measure based on the non-Gaussianity (nG) of the ground state. The two measures are evaluated for a sample of significant nonlinear potentials and their properties are discussed in some detail. We show that the two measures are monotone functions with respect to each other in most cases, and this suggests that the nG-based measure is a suitable choice to capture the anharmonic nature of a quantum oscillator, and to quantify its nonlinearity independently of the specific features of the potential. We also provide examples of potentials where the Bures measure cannot be defined, due to the lack of a proper reference harmonic potential, while the nG-based measure properly quantifies their nonlinear features. Our results may have implications in experimental applications where access to the effective potential is limited, e.g., in quantum control, and protocols rely on information about the ground or thermal state

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PhysRevA.90.012104 - Version of Record
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Published date: 9 July 2014
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Organisations: Physics & Astronomy
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Identifiers

Local EPrints ID: 369448
URI: http://eprints.soton.ac.uk/id/eprint/369448
DOI: doi:10.1103/PhysRevA.90.012104
ISSN: 1050-2947
PURE UUID: c6947143-cf60-4369-a54a-b240d0114bc4

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Date deposited: 26 Sep 2014 13:13
Last modified: 14 Mar 2024 18:03

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Contributors

Author: Matteo G.A. Paris
Author: Marco G. Genoni
Author: Nathan Shammah
Author: Berihu Teklu

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