The Spontaneous generation of magnetic fields at high temperature in a supersymmetric theory

The spontaneous generation of magnetic and chromomagnetic fields at high temperature in the minimal supersymmetric standard model (MSSM) is investigated. The consistent effective potential including the one-loop and the daisy diagrams of all bosons and fermions is calculated and the magnetization of the vacuum is observed. The mixing of the generated fields due to the quark and s-quark loop diagrams and the role of superpartners are studied in detail. It is found that the contribution of these diagrams increases the magnetic and chromomagnetic field strengths as compared with the case of a separate generation of fields. The magnetized vacuum state is found to be stable due to the magnetic masses of gauge fields included in the daisy diagrams. Applications of the results obtained are discussed. A comparison with the standard model case is done.

Note:

14 pages, 2 figures, 3 tables

gauge field theory: SU(3) x SU(2) x U(1)
supersymmetry
magnetic field: production
color: magnetic field
finite temperature
effective potential
Feynman graph: higher-order
vacuum state: magnetic
mass: magnetic
sparticle: effect

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Figures(2)

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