Exact-enumeration approach to tunneling in disordered systems

Xiang Rong Wang; Yonathan Shapir; Ernesto Medina; Mehran Kardar

doi:10.1103/PhysRevB.42.4559

Exact-enumeration approach to tunneling in disordered systems

Xiang Rong Wang^*
, Yonathan Shapir
, Ernesto Medina
, Mehran Kardar

^*Corresponding author for this work

University of Rochester
Massachusetts Institute of Technology

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

15 Scopus citations

Abstract

The model of Nguyen, Spivak, and Shklovskii (NSS) for coherent tunneling of strongly localized electrons, by impurities with negative local scattering amplitudes, is studied by exact enumeration of all impurity configurations. We consider the overlap between electronic wave functions on sites that are t lattice spacings apart and examine the dependence of their statistical properties on the hopping length and the concentration p of impurities. We obtain series up to t=5 for general p, and t=9 in the symmetric case of p=1/2. In this interval, the extent of scattering perpendicular to the hopping direction is found to spread as x2 t2, with =0.62 0.05. The probability that the final amplitude maintains its original sign decays as exp[-a(p)t] for p 0.1, casting doubt on the sign-phase transition suggested by NSS.

Original language	English
Pages (from-to)	4559-4562
Number of pages	4
Journal	Physical Review B-Condensed Matter
Volume	42
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevB.42.4559
State	Published - 1990
Externally published	Yes

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title = "Exact-enumeration approach to tunneling in disordered systems",

abstract = "The model of Nguyen, Spivak, and Shklovskii (NSS) for coherent tunneling of strongly localized electrons, by impurities with negative local scattering amplitudes, is studied by exact enumeration of all impurity configurations. We consider the overlap between electronic wave functions on sites that are t lattice spacings apart and examine the dependence of their statistical properties on the hopping length and the concentration p of impurities. We obtain series up to t=5 for general p, and t=9 in the symmetric case of p=1/2. In this interval, the extent of scattering perpendicular to the hopping direction is found to spread as x2 t2, with =0.62 0.05. The probability that the final amplitude maintains its original sign decays as exp[-a(p)t] for p 0.1, casting doubt on the sign-phase transition suggested by NSS.",

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AU - Wang, Xiang Rong

AU - Shapir, Yonathan

AU - Medina, Ernesto

AU - Kardar, Mehran

PY - 1990

Y1 - 1990

N2 - The model of Nguyen, Spivak, and Shklovskii (NSS) for coherent tunneling of strongly localized electrons, by impurities with negative local scattering amplitudes, is studied by exact enumeration of all impurity configurations. We consider the overlap between electronic wave functions on sites that are t lattice spacings apart and examine the dependence of their statistical properties on the hopping length and the concentration p of impurities. We obtain series up to t=5 for general p, and t=9 in the symmetric case of p=1/2. In this interval, the extent of scattering perpendicular to the hopping direction is found to spread as x2 t2, with =0.62 0.05. The probability that the final amplitude maintains its original sign decays as exp[-a(p)t] for p 0.1, casting doubt on the sign-phase transition suggested by NSS.

AB - The model of Nguyen, Spivak, and Shklovskii (NSS) for coherent tunneling of strongly localized electrons, by impurities with negative local scattering amplitudes, is studied by exact enumeration of all impurity configurations. We consider the overlap between electronic wave functions on sites that are t lattice spacings apart and examine the dependence of their statistical properties on the hopping length and the concentration p of impurities. We obtain series up to t=5 for general p, and t=9 in the symmetric case of p=1/2. In this interval, the extent of scattering perpendicular to the hopping direction is found to spread as x2 t2, with =0.62 0.05. The probability that the final amplitude maintains its original sign decays as exp[-a(p)t] for p 0.1, casting doubt on the sign-phase transition suggested by NSS.

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DO - 10.1103/PhysRevB.42.4559

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SP - 4559

EP - 4562

JO - Physical Review B-Condensed Matter

JF - Physical Review B-Condensed Matter

IS - 7

ER -

Exact-enumeration approach to tunneling in disordered systems

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