Maxwell's field coupled nonminimally to quadratic torsion: Induced axion field and birefringence of the vacuum
Abstract
We consider a possible (parity conserving) interaction between the electromagnetic field F and a torsion field Tα of spacetime. For generic elementary torsion, gauge invariant coupling terms of lowest order fall into two classes that are both nonminimal and quadratic in torsion. These two classes are displayed explicitly. The first class of the type F T2 yields (undesirable) modifications of the Maxwell equations. The second class of the type F2 T2 doesn't touch the Maxwell equations but rather modifies the constitutive tensor of spacetime. Such a modification can be completely described in the framework of metricfree electrodynamics. We recognize three physical effects generated by the torsion: (i) An axion field that induces an optical activity into spacetime, (ii) a modification of the light cone structure that yields birefringence of the vacuum, and (iii) a torsion dependence of the velocity of light. We study these effects in the background of a Friedmann universe with torsion. File tor17.tex, 02 August 2003
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