Issues

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2001

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Supplement

  

Localization and quantum chaos


Chaotic quantum transport in superlattices

 a,  b, a,  a,  a,  a,  c, a,  a,  a,  a
a School of Physics and Astronomy, The University of Nottingham, Nottingham, United Kingdom
b Universidad Autónoma de Puebla, Universidad Autónoma de Puebla, Mexico
c Institute of Physics, Wroclaw University of Technology, Wroclaw, Poland , Wroclaw , Poland

We report a new type of quantum chaotic system in which the classical Hamiltonian originates from the intrinsically quantum mechanical nature of the device. The system is a semiconductor superlattice in a magnetic field. The energy–momentum dispersion curves can be used to calculate semiclassical orbits for electrons confined to a single miniband. When a magnetic field is applied along the superlattice axis ($x$-direction), the electrons perform Bloch oscillations along the axis with cyclotron motion in the orthogonal plane. But when the magnetic field is tilted away from the $x$-direction, the orbits are chaotic, and have as patial width along the superlattice axis, which is much larger than the amplitude of the Bloch oscillations. This is because the tilted field transfers momentum between the $x$- and $z$-directions, thereby delocalizing the electron path. This type of chaotic dynamics is fundamentally different to that identified in our previous studies of double-barrier resonant tunneling diodes. We investigate the relation between the orbits of the effective Hamiltonian, and the quantum states of the superlattice. In the regime of strong chaos, the wave functions have a highly diffuse structure which extends across many periods of the superlattice, just like the corresponding classical orbits. This chaos-induced delocalization increases the current flow through real devices. By contrast, in the stable domain the electron orbits remain localized along the paths of particular quasi-periodic orbits. We use theoretical and experimental current–voltage curves to show how the onset of chaos manifests itself in the transport properties of two- and three-terminal superlattice structures, and identify current oscillations associated with classical resonances. We also consider analogies with ultra-cold atoms in an optical lattice with a tilted harmonic trap.

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Fulltext is also available at DOI: 10.1070/1063-7869/44/10S/S03
PACS: 72.15.−v, 72.15.Rn, 05.60.Gg, 05.45.Mt (all)
DOI: 10.1070/1063-7869/44/10S/S03
URL: https://ufn.ru/en/articles/2001/13/c/
Citation: Fromhold T M, Krokhin A A, Wilkinson P B, Belyaev A A, Tench Ch R, Bujkiewicz S, Sheard F W, Eaves L, Henini M "Chaotic quantum transport in superlattices" Phys. Usp. 44 24–27 (2001)
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Îðèãèíàë: Fromhold T M, Krokhin A A, Wilkinson P B, Belyaev A A, Tench Ch R, Bujkiewicz S, Sheard F W, Eaves L, Henini M «Chaotic quantum transport in superlattices» ÓÔÍ 171 24–27 (2001); DOI: 10.1070/1063-7869/44/10S/S03

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