Intersubband Transport in Quantum Wells in Strong Magnetic Fields Mediated by Single- and Two-Electron Scattering

K. Kempa; Y. Zhou; J. R. Engelbrecht; P. Bakshi; H. I. Ha; J. Moser; M. J. Naughton; J. Ulrich; G. Strasser; E. Gornik; K. Unterrainer

doi:10.1103/PhysRevLett.88.226803

Intersubband Transport in Quantum Wells in Strong Magnetic Fields Mediated by Single- and Two-Electron Scattering

K. Kempa, Y. Zhou, J. R. Engelbrecht, P. Bakshi, H. I. Ha, J. Moser, M. J. Naughton, J. Ulrich, G. Strasser, E. Gornik, and K. Unterrainer

Phys. Rev. Lett. 88, 226803 – Published 20 May 2002

Abstract

We show theoretically that in quantum wells subjected to a strong magnetic field the intersubband current peaks at magnetic field values, which reveal the underlying specific intersubband scattering mechanism. We have designed and grown a superlattice structure in which such current oscillations are clearly visible, and in which the transition from the purely single-electron to the mixed single- and two-electron scattering regimes can be observed by tuning the applied voltage bias. The measurements were conducted in ultrahigh magnetic fields (up to 45 T) to obtain the full spectrum of the current oscillations.

Received 4 December 2001

DOI:https://doi.org/10.1103/PhysRevLett.88.226803

Authors & Affiliations

K. Kempa¹, Y. Zhou¹, J. R. Engelbrecht¹, P. Bakshi¹, H. I. Ha¹, J. Moser¹, M. J. Naughton¹, J. Ulrich², G. Strasser², E. Gornik², and K. Unterrainer²

¹Department of Physics, Boston College, Chestnut Hill, Massachusetts 02467
²Institute for Solid State Electronics and Microstructure Center, Technische Universitat Wien, Austria