Characterization of Bernstein modes in quantum dots
arXiv:cond-mat/0205345 · doi:10.1140/epjb/e2002-00206-x
Abstract
The dipole modes of non-parabolic quantum dots are studied by means of their current and density patterns as well as with their local absorption distribution. The anticrossing of the so-called Bernstein modes originates from the coupling with electron-hole excitations of the two Landau bands which are occupied at the corresponding magnetic fields. Non-quadratic terms in the potential cause an energy separation between bulk and edge current modes in the anticrossing region. On a local scale the fragmented peaks absorb energy in complementary spatial regions which evolve with the magnetic field.
6 pages; embedded figs. 1-3; figs. 4, 5 separate files; accepted in EPJ-B