Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
1997-11-25
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
In REVTeX, 24 pages, submitted to Phys. Rev. B
Scientific paper
The motion of a conducting electron in a quantum dot with one or several dislocations in the underlying crystal lattice is considered in the continuum picture, where dislocations are represented by torsion of space. The possible effects of torsion are investigated on the levels of classical motion, non-relativistic quantum motion, and spin-torsion coupling terms derivable in the non-relativistic limit of generalizations of the Dirac equation in a space with torsion. Finally, phenomenological spin-torsion couplings analogous to Pauli terms are considered in the non-relativistic equations. Different prescriptions of classical and non-relativistic quantum motion in a space with torsion are shown to give effects that should in principle be observable. Semi-classical arguments are presented to show that torsion is not relevant for the classical motion of the center of a wave packet. The correct semi-classical limit can instead be described as classical trajectories in a Hamiltonian given by the band energy. In the special case of a spherically symmetric band this motion reduces to straight lines, independently of local crystal orientations. By dimensional analysis the coupling constants of the possible spin-torsion interactions are postulated to be proportional to a combination of the effective mass of the electron, the lattice constant and $\hbar$. The level-splitting is then very small with transition frequencies on the order of 1 kHz or smaller.
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