Add to ORKG7 pages, 3 figures. Presented at the Int. Conf. QEDSP 2001, dedicated to the 90th anniversary of Alexander Il'ich Akhiezer (Kharkov, Ukraine, Oct. 30 - Nov. 3, 2001). To appear in the proceedings - ThéorieFor a monopole, the analogue of the Lorentz equation in matter is shown to be f = g (H - v cross D). Dual-symmetric Maxwell equations, for matter containing hidden magnetic charges in addition to electric ones, are given. They apply as well to ordinary matter if the particles possess T-violating electric dipole moments. Two schemes of experiments for the detection of such moments in macroscopic pieces of matter are proposed
It is known that a non-Abelian magnetic monopole cannot rotate globally (although it may possess a ...
Due to the nonlinearity of QED, a static charge becomes a magnetic dipole if placed in a magnetic fi...
We introduce the historical context and motivation for the search for magnetic monopoles or monopole...
7 pages, 3 figures. Presented at the Int. Conf. QEDSP 2001, dedicated to the 90th anniversary of Ale...
The electric dipole moment of a magnetic monopole with spin is studied in the N = 2 supersymmetric g...
Magnetic Monopole is a consequence of the existence of the duality symmetry in electrodynamics. Alth...
The symmetry between electric and magnetic fields in the sourcefree Maxwell’s equations naturally su...
In 1931 Dirac studied the motion of an electron in the field of a magnetic monopole and found that t...
After a few personal recollections on Professor Shoichi Sakata and the theory group of Nagoya Univie...
The derivation of the Maxwell equations is reproduced whereby magnetic charges are included. This an...
Discuss the fields of a moving point electric dipole, and characterize these fields in terms of mult...
The matter-antimatter asymmetry cannot be explained by the Standard Model (SM) of elementary particl...
It is shown how to break the symmetry of a Lagrangian with duality symmetry between electric and mag...
We investigate the possibility of coexistence between Dirac-like monopoles and Lorentz-violating ele...
The matter-antimatter asymmetry cannot be explained by the Standard Model (SM) of elementary particl...
It is known that a non-Abelian magnetic monopole cannot rotate globally (although it may possess a ...
Due to the nonlinearity of QED, a static charge becomes a magnetic dipole if placed in a magnetic fi...
We introduce the historical context and motivation for the search for magnetic monopoles or monopole...
7 pages, 3 figures. Presented at the Int. Conf. QEDSP 2001, dedicated to the 90th anniversary of Ale...
The electric dipole moment of a magnetic monopole with spin is studied in the N = 2 supersymmetric g...
Magnetic Monopole is a consequence of the existence of the duality symmetry in electrodynamics. Alth...
The symmetry between electric and magnetic fields in the sourcefree Maxwell’s equations naturally su...
In 1931 Dirac studied the motion of an electron in the field of a magnetic monopole and found that t...
After a few personal recollections on Professor Shoichi Sakata and the theory group of Nagoya Univie...
The derivation of the Maxwell equations is reproduced whereby magnetic charges are included. This an...
Discuss the fields of a moving point electric dipole, and characterize these fields in terms of mult...
The matter-antimatter asymmetry cannot be explained by the Standard Model (SM) of elementary particl...
It is shown how to break the symmetry of a Lagrangian with duality symmetry between electric and mag...
We investigate the possibility of coexistence between Dirac-like monopoles and Lorentz-violating ele...
The matter-antimatter asymmetry cannot be explained by the Standard Model (SM) of elementary particl...
It is known that a non-Abelian magnetic monopole cannot rotate globally (although it may possess a ...
Due to the nonlinearity of QED, a static charge becomes a magnetic dipole if placed in a magnetic fi...
We introduce the historical context and motivation for the search for magnetic monopoles or monopole...