Limits on the monopole magnetic field from measurements of the electric dipole moments of atoms, molecules and the neutron
Abstract
A radial magnetic field can induce a time invariance violating electric dipole moment (EDM) in quantum systems. The EDMs of the Tl, Cs, Xe and Hg atoms and the neutron that are produced by such a field are estimated. The contributions of such a field to the constants, of the T,P-odd interactions e N · s/s and N N · I/I are also estimated for the TlF, HgF and YbF molecules (where s ( I) is the electron (nuclear) spin and N is the molecular axis). The best limit on the contact monopole field can be obtained from the measured value of the Tl EDM. The possibility of such a field being produced from polarization of the vacuum of electrically charged magnetic monopoles (dyons) by a Coulomb field is discussed, as well as the limit on these dyons. An alternative mechanism involves chromomagnetic and chromoelectric fields in QCD.
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