Thursday, July 19, 2012

1207.4407 (S. M. Lloyd et al.)

Interaction of electron vortices and optical vortices with matter and
processes of orbital angular momentum exchange
   [PDF]

S. M. Lloyd, M. Babiker, J. Yuan
The quantum processes involved in the interaction of matter with, separately, an electron vortex(EV) and an optical vortex (OV) are described, with matter modelled in terms of a neutral two particle atomic system, allowing for both the internal (electronic-type) motion and the gross (center of mass-type) motion of matter to be taken into account. The coupling of the atomic system to the EV is dominated by Coulomb forces, while that of the OV is taken in the $\mathbf{p}\cdot\mathbf{A}$ canonical form which couples $\mathbf{A}$, the transverse vector potential of the optical vortex, to the linear momenta of the two-particle system. An analysis of the dipole active transition matrix element is carried out in each case. The electron vortex is found to be capable of exchanging its orbital angular momentum (OAM) with both the electronic and the center of mass motions of the atomic system in an electric dipole transition. In contrast, for electric dipole transitions the optical vortex is found to be capable of exchanging OAM only with the center of mass. The predictions are discussed with reference to recent experiments on electron energy loss spectroscopy (EELS) using EVs traversing magnetised iron thin film samples and those involving OVs interacting with chiral molecules.
View original: http://arxiv.org/abs/1207.4407

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