Physics – Condensed Matter – Other Condensed Matter
Scientific paper
2008-07-30
Physical Review B82 045317 (2010)
Physics
Condensed Matter
Other Condensed Matter
7 pages, 5 figs
Scientific paper
To an electron moving in free space an electric field appears as a magnetic field which interacts with and can reorient the electron spin. In semiconductor quantum wells this spin-orbit interaction seems to offer the possibility of gate-voltage control in spintronic devices but, as the electrons are subject to both ion-core and macroscopic structural potentials, this over-simple picture has lead to intense debate. For example, an externally applied field acting on the envelope of the electron wavefunction determined by the macroscopic potential, underestimates the experimentally observed spin-orbit field by many orders of magnitude while the Ehrenfest theorem suggests that it should actually be zero. Here we challenge, both experimentally and theoretically, the widely held belief that any inversion asymmetry of the macroscopic potential, not only electric field, will produce a significant spin-orbit field for electrons. This conclusion has far-reaching consequences for the design of spintronic devices while illuminating important fundamental physics.
Eldridge Peter S.
Harley Thomas Randall
Henini Mohamed
Karimov O. Z.
Lagoudakis Pavlos G.
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