Supersymmetric QED at finite temperature and the principle of equivalence

Details Supersymmetric QED at finite temperature and the principle of equivalence Supersymmetric QED at finite temperature and the principle of equivalence

Jan 1985

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1985phrvd..31..336r&link_type=abstract

Physical Review D (Particles and Fields), Volume 31, Issue 2, 15 January 1985, pp.336-340

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2

Supersymmetry, Other Topics In General Relativity And Gravitation, Specific Calculations

Scientific paper

Unbroken supersymmetric QED is examined at finite temperature and it is shown that the scalar and spinor members of a chiral superfield acquire different temperature-dependent inertial masses. By considering the renormalization of the energy-momentum tensor it is also shown that the T-dependent scalar-spinor gravitational masses are also no longer degenerate and, moreover, are different from their T-dependent inertial mass shifts implying a violation of the equivalence principle. The temperature-dependent corrections to the spinor (g-2) are also calculated and found not to vanish.

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