Unravelling quantum carpets: A travelling-wave approach

Michael J.W. Hall; Martina S. Reineker; Wolfgang P. Schleich

doi:10.1088/0305-4470/32/47/307

Unravelling quantum carpets: A travelling-wave approach

Michael J.W. Hall^*, Martina S. Reineker, Wolfgang P. Schleich

^*Corresponding author for this work

Department of Fundamental & Theoretical Physics

Research output: Contribution to journal › Article › peer-review

37 Citations (Scopus)

Abstract

Generic channel and ridge structures are known to appear in the time-dependent position probability distribution of a one-dimensional quantum particle confined to a box. These structures are shown to have a detailed quantitative explanation in terms of a travelling-wave decomposition of the probability density, wherein each contributing term corresponds simultaneously to (i) a real wave propagating at a quantized velocity and (ii) to the time-averaged structure of the position distribution along a quantized direction in spacetime. The approach leads to new predictions of channel locations, widths and depths, and is able to provide more structural details than earlier approaches based on partial interference and Wigner functions. Results are also applicable to light diffracted by a periodic grating, and to the quantum rigid rotator.

Original language	English
Pages (from-to)	8275-8291
Number of pages	17
Journal	Journal of Physics A: Mathematical and General
Volume	32
Issue number	47
DOIs	https://doi.org/10.1088/0305-4470/32/47/307
Publication status	Published - 26 Nov 1999

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title = "Unravelling quantum carpets: A travelling-wave approach",

abstract = "Generic channel and ridge structures are known to appear in the time-dependent position probability distribution of a one-dimensional quantum particle confined to a box. These structures are shown to have a detailed quantitative explanation in terms of a travelling-wave decomposition of the probability density, wherein each contributing term corresponds simultaneously to (i) a real wave propagating at a quantized velocity and (ii) to the time-averaged structure of the position distribution along a quantized direction in spacetime. The approach leads to new predictions of channel locations, widths and depths, and is able to provide more structural details than earlier approaches based on partial interference and Wigner functions. Results are also applicable to light diffracted by a periodic grating, and to the quantum rigid rotator.",

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T2 - A travelling-wave approach

AU - Hall, Michael J.W.

AU - Reineker, Martina S.

AU - Schleich, Wolfgang P.

PY - 1999/11/26

Y1 - 1999/11/26

N2 - Generic channel and ridge structures are known to appear in the time-dependent position probability distribution of a one-dimensional quantum particle confined to a box. These structures are shown to have a detailed quantitative explanation in terms of a travelling-wave decomposition of the probability density, wherein each contributing term corresponds simultaneously to (i) a real wave propagating at a quantized velocity and (ii) to the time-averaged structure of the position distribution along a quantized direction in spacetime. The approach leads to new predictions of channel locations, widths and depths, and is able to provide more structural details than earlier approaches based on partial interference and Wigner functions. Results are also applicable to light diffracted by a periodic grating, and to the quantum rigid rotator.

AB - Generic channel and ridge structures are known to appear in the time-dependent position probability distribution of a one-dimensional quantum particle confined to a box. These structures are shown to have a detailed quantitative explanation in terms of a travelling-wave decomposition of the probability density, wherein each contributing term corresponds simultaneously to (i) a real wave propagating at a quantized velocity and (ii) to the time-averaged structure of the position distribution along a quantized direction in spacetime. The approach leads to new predictions of channel locations, widths and depths, and is able to provide more structural details than earlier approaches based on partial interference and Wigner functions. Results are also applicable to light diffracted by a periodic grating, and to the quantum rigid rotator.

UR - https://www.scopus.com/pages/publications/0033607380

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DO - 10.1088/0305-4470/32/47/307

M3 - Article

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SP - 8275

EP - 8291

JO - Journal of Physics A: Mathematical and General

JF - Journal of Physics A: Mathematical and General

IS - 47

ER -

Unravelling quantum carpets: A travelling-wave approach

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