Dynamics of localized waves in one-dimensional random potentials : statistical theory of the coherent forward scattering peak
As recently discovered [T. Karpiuk et al., Phys. Rev. Lett. 109, 190601 (2012)], Anderson localization in a bulk disordered system triggers the emergence of a coherent forward scattering (CFS) peak in momentum space, which twins the well-known coherent backscattering (CBS) peak observed in weak loca...
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sg-ntu-dr.10356-1011332020-09-26T21:56:38Z Dynamics of localized waves in one-dimensional random potentials : statistical theory of the coherent forward scattering peak Lee, Kean Loon Miniatura, Christian Grémaud, Benoît Institute of Advanced Studies DRNTU::Science::Physics::Optics and light As recently discovered [T. Karpiuk et al., Phys. Rev. Lett. 109, 190601 (2012)], Anderson localization in a bulk disordered system triggers the emergence of a coherent forward scattering (CFS) peak in momentum space, which twins the well-known coherent backscattering (CBS) peak observed in weak localization experiments. Going beyond the perturbative regime, we address here the long-time dynamics of the CFS peak in a one-dimensional random system and we relate this novel interference effect to the statistical properties of the eigenfunctions and eigenspectrum of the corresponding random Hamiltonian. Our numerical results show that the dynamics of the CFS peak is governed by the logarithmic level repulsion between localized states, with a time scale that is, with good accuracy, twice the Heisenberg time. This is in perfect agreement with recent findings based on the nonlinear sigma model. In the stationary regime, the width of the CFS peak in momentum space is inversely proportional to the localization length, reflecting the exponential decay of the eigenfunctions in real space, while its height is exactly twice the background, reflecting the Poisson statistical properties of the eigenfunctions. It would be interesting to extend our results to higher dimensional systems and other symmetry classes. Published version 2014-10-29T01:49:16Z 2019-12-06T20:33:46Z 2014-10-29T01:49:16Z 2019-12-06T20:33:46Z 2014 2014 Journal Article Lee, K. L., Grémaud, B., & Miniatura, C. (2014). Dynamics of localized waves in one-dimensional random potentials : statistical theory of the coherent forward scattering peak. Physical review A, 90(4), 043605-. https://hdl.handle.net/10356/101133 http://hdl.handle.net/10220/24143 10.1103/PhysRevA.90.043605 en Physical review A © 2014 American Physical Society. This paper was published in Physical Review A and is made available as an electronic reprint (preprint) with permission of American Physical Society. The paper can be found at the following official DOI: [http://dx.doi.org/10.1103/PhysRevA.90.043605]. One print or electronic copy may be made for personal use only. Systematic or multiple reproduction, distribution to multiple locations via electronic or other means, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper is prohibited and is subject to penalties under law. application/pdf |
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DRNTU::Science::Physics::Optics and light Lee, Kean Loon Miniatura, Christian Grémaud, Benoît Dynamics of localized waves in one-dimensional random potentials : statistical theory of the coherent forward scattering peak |
| description |
As recently discovered [T. Karpiuk et al., Phys. Rev. Lett. 109, 190601 (2012)], Anderson localization in a bulk disordered system triggers the emergence of a coherent forward scattering (CFS) peak in momentum space, which twins the well-known coherent backscattering (CBS) peak observed in weak localization experiments. Going beyond the perturbative regime, we address here the long-time dynamics of the CFS peak in a one-dimensional random system and we relate this novel interference effect to the statistical properties of the eigenfunctions and eigenspectrum of the corresponding random Hamiltonian. Our numerical results show that the dynamics of the CFS peak is governed by the logarithmic level repulsion between localized states, with a time scale that is, with good accuracy, twice the Heisenberg time. This is in perfect agreement with recent findings based on the nonlinear sigma model. In the stationary regime, the width of the CFS peak in momentum space is inversely proportional to the localization length, reflecting the exponential decay of the eigenfunctions in real space, while its height is exactly twice the background, reflecting the Poisson statistical properties of the eigenfunctions. It would be interesting to extend our results to higher dimensional systems and other symmetry classes. |
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Institute of Advanced Studies |
| author_facet |
Institute of Advanced Studies Lee, Kean Loon Miniatura, Christian Grémaud, Benoît |
| format |
Article |
| author |
Lee, Kean Loon Miniatura, Christian Grémaud, Benoît |
| author_sort |
Lee, Kean Loon |
| title |
Dynamics of localized waves in one-dimensional random potentials : statistical theory of the coherent forward scattering peak |
| title_short |
Dynamics of localized waves in one-dimensional random potentials : statistical theory of the coherent forward scattering peak |
| title_full |
Dynamics of localized waves in one-dimensional random potentials : statistical theory of the coherent forward scattering peak |
| title_fullStr |
Dynamics of localized waves in one-dimensional random potentials : statistical theory of the coherent forward scattering peak |
| title_full_unstemmed |
Dynamics of localized waves in one-dimensional random potentials : statistical theory of the coherent forward scattering peak |
| title_sort |
dynamics of localized waves in one-dimensional random potentials : statistical theory of the coherent forward scattering peak |
| publishDate |
2014 |
| url |
https://hdl.handle.net/10356/101133 http://hdl.handle.net/10220/24143 |
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1681059651064430592 |