SU(2) symmetry and conservation of helicity for a Dirac particle in a static magnetic field at first order

Abstract We investigate the spin dynamics and the conservation of helicity in the first order S-matrix of a Dirac particle in any static magnetic field. We express the dynamical quantities using a coordinate system defined by the three mutually orthogonal vectors; the total momentum k = p f + p i, the momentum transfer q = p f - p i, and l = k × q. We show that this leads to an alternative symmetric description of the conservation of helicity in a static magnetic field at first order. In particular, we show that helicity conservation in the transition can be viewed as the invariance of the component of the spin along k and the flipping of its component along q, just as what happens to the momentum vector of a ball bouncing off a wall. We also derive a “plug and play" formula for the transition matrix element where the only reference to the specific field configuration, and the incident and outgoing momenta is through the kinematical factors multiplying a general matrix element that is independent of the specific vector potential present.

Bibliographic Details

Main Authors:	Shikakhwa,M.S., Albaid,A.
Format:	Digital revista
Language:	English
Published:	Sociedad Mexicana de Física 2017
Online Access:	http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S0035-001X2017000500474
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