Navigating the Hilbert space of nonseparable elastic states in arrays of periodically coupled one-dimensional waveguides

Navigating the Hilbert space of nonseparable elastic states in arrays of periodically coupled one-dimensional waveguides

A planar array of three one-dimensional elastic waveguides mutually coupled periodically along their length and driven externally is shown theoretically and numerically to support nonseparable superpositions of states. These states are the product of Bloch waves describing the elastic displacement a...

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Main Authors: P. A. Deymier, M. A. Hasan, K. Runge
Format: Article
Language:English
Published: AIP Publishing LLC 2020-09-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/5.0014259
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spelling doaj-a4acbe11dd814d8a80b1907fa67639ff2020-11-25T03:59:05ZengAIP Publishing LLCAIP Advances2158-32262020-09-01109095105095105-1210.1063/5.0014259Navigating the Hilbert space of nonseparable elastic states in arrays of periodically coupled one-dimensional waveguidesP. A. Deymier0M. A. Hasan1K. Runge2Department of Materials Science and Engineering, University of Arizona, Tucson, Arizona 85721, USADepartment of Materials Science and Engineering, University of Arizona, Tucson, Arizona 85721, USADepartment of Materials Science and Engineering, University of Arizona, Tucson, Arizona 85721, USAA planar array of three one-dimensional elastic waveguides mutually coupled periodically along their length and driven externally is shown theoretically and numerically to support nonseparable superpositions of states. These states are the product of Bloch waves describing the elastic displacement along the waveguides and spatial modes representing the displacement across the array of waveguides. For a system composed of finite length waveguides, the frequency, relative amplitude, and phase of the external drivers can be employed to selectively excite specific groups of discrete product modes. The periodicity of the coupling is used to fold bands enabling superpositions of states that span the complete Hilbert space of product states. We show that we can realize a transformation from one type of nonseparable superposition to another one that is analogous to a nontrivial quantum gate. This transformation is also interpreted as the complex conjugation operator in the space of the complex amplitudes of individual waveguides.http://dx.doi.org/10.1063/5.0014259
collection DOAJ
language English
format Article
sources DOAJ
author P. A. Deymier
M. A. Hasan
K. Runge
spellingShingle P. A. Deymier
M. A. Hasan
K. Runge
Navigating the Hilbert space of nonseparable elastic states in arrays of periodically coupled one-dimensional waveguides
AIP Advances
author_facet P. A. Deymier
M. A. Hasan
K. Runge
author_sort P. A. Deymier
title Navigating the Hilbert space of nonseparable elastic states in arrays of periodically coupled one-dimensional waveguides
title_short Navigating the Hilbert space of nonseparable elastic states in arrays of periodically coupled one-dimensional waveguides
title_full Navigating the Hilbert space of nonseparable elastic states in arrays of periodically coupled one-dimensional waveguides
title_fullStr Navigating the Hilbert space of nonseparable elastic states in arrays of periodically coupled one-dimensional waveguides
title_full_unstemmed Navigating the Hilbert space of nonseparable elastic states in arrays of periodically coupled one-dimensional waveguides
title_sort navigating the hilbert space of nonseparable elastic states in arrays of periodically coupled one-dimensional waveguides
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2020-09-01
description A planar array of three one-dimensional elastic waveguides mutually coupled periodically along their length and driven externally is shown theoretically and numerically to support nonseparable superpositions of states. These states are the product of Bloch waves describing the elastic displacement along the waveguides and spatial modes representing the displacement across the array of waveguides. For a system composed of finite length waveguides, the frequency, relative amplitude, and phase of the external drivers can be employed to selectively excite specific groups of discrete product modes. The periodicity of the coupling is used to fold bands enabling superpositions of states that span the complete Hilbert space of product states. We show that we can realize a transformation from one type of nonseparable superposition to another one that is analogous to a nontrivial quantum gate. This transformation is also interpreted as the complex conjugation operator in the space of the complex amplitudes of individual waveguides.
url http://dx.doi.org/10.1063/5.0014259
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AT mahasan navigatingthehilbertspaceofnonseparableelasticstatesinarraysofperiodicallycoupledonedimensionalwaveguides
AT krunge navigatingthehilbertspaceofnonseparableelasticstatesinarraysofperiodicallycoupledonedimensionalwaveguides
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