Magnetically induced Bragg scattering of electrons in quantum-dot crystals

M. Elhassan; R. Akis; J. P. Bird; D. K. Ferry; T. Ida; K. Ishibashi

doi:10.1103/PhysRevB.70.205341

Magnetically induced Bragg scattering of electrons in quantum-dot crystals

M. Elhassan
, R. Akis
, J. P. Bird
, D. K. Ferry
, T. Ida
, K. Ishibashi

Department of Electrical Engineering

Arizona State University
RIKEN

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

20 Scopus citations

Abstract

We demonstrate a novel manifestation of dynamic Bragg reflection in artificial quantum-dot crystals that is driven by the application of a magnetic field. This backscattering is coherently cascaded as the number of dots in the structure is increased, causing a superlinear damping of the electron wave function and the appearance of a series of gaps in the miniband spectrum. The evolution of the dynamic miniband structure as the magnetic field is varied gives rise to behavior analogous to a metal-insulator transition, which is manifest as a dramatic resonance in the magneto-resistance of the structures.

Original language	English
Article number	205341
Pages (from-to)	205341-1-205341-4
Journal	Physical Review B-Condensed Matter
Volume	70
Issue number	20
DOIs	https://doi.org/10.1103/PhysRevB.70.205341
State	Published - Nov 2004

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10.1103/PhysRevB.70.205341

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AU - Ishibashi, K.

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N2 - We demonstrate a novel manifestation of dynamic Bragg reflection in artificial quantum-dot crystals that is driven by the application of a magnetic field. This backscattering is coherently cascaded as the number of dots in the structure is increased, causing a superlinear damping of the electron wave function and the appearance of a series of gaps in the miniband spectrum. The evolution of the dynamic miniband structure as the magnetic field is varied gives rise to behavior analogous to a metal-insulator transition, which is manifest as a dramatic resonance in the magneto-resistance of the structures.

AB - We demonstrate a novel manifestation of dynamic Bragg reflection in artificial quantum-dot crystals that is driven by the application of a magnetic field. This backscattering is coherently cascaded as the number of dots in the structure is increased, causing a superlinear damping of the electron wave function and the appearance of a series of gaps in the miniband spectrum. The evolution of the dynamic miniband structure as the magnetic field is varied gives rise to behavior analogous to a metal-insulator transition, which is manifest as a dramatic resonance in the magneto-resistance of the structures.

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Magnetically induced Bragg scattering of electrons in quantum-dot crystals

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