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Title: Force law in material media, hidden momentum and quantum phases

Journal Article · · Annals of Physics
 [1];  [2];  [3]
  1. Institute for Nuclear Problems, Belarusian State University, Minsk (Belarus)
  2. Okan University, Akfirat, Istanbul (Turkey)
  3. Turkey
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We address to the force law in classical electrodynamics of material media, paying attention on the force term due to time variation of hidden momentum of magnetic dipoles. We highlight that the emergence of this force component is required by the general theorem, deriving zero total momentum for any static configuration of charges/currents. At the same time, we disclose the impossibility to add this force term covariantly to the Lorentz force law in material media. We further show that the adoption of the Einstein–Laub force law does not resolve the issue, because for a small electric/magnetic dipole, the density of Einstein–Laub force integrates exactly to the same equation, like the Lorentz force with the inclusion of hidden momentum contribution. Thus, none of the available expressions for the force on a moving dipole is compatible with the relativistic transformation of force, and we support this statement with a number of particular examples. In this respect, we suggest applying the Lagrangian approach to the derivation of the force law in a magnetized/polarized medium. In the framework of this approach we obtain the novel expression for the force on a small electric/magnetic dipole, with the novel expression for its generalized momentum. The latter expression implies two novel quantum effects with non-topological phases, when an electric dipole is moving in an electric field, and when a magnetic dipole is moving in a magnetic field. These phases, in general, are not related to dynamical effects, because they are not equal to zero, when the classical force on a dipole is vanishing. The implications of the obtained results are discussed.

OSTI ID:
22560327
Journal Information:
Annals of Physics, Vol. 369, Issue Complete; Other Information: Copyright (c) 2016 Elsevier Science B.V., Amsterdam, The Netherlands, All rights reserved.; Country of input: International Atomic Energy Agency (IAEA); ISSN 0003-4916
Country of Publication:
United States
Language:
English

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Related Subjects

71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
ELECTRIC DIPOLES
ELECTRIC FIELDS
ELECTRODYNAMICS
LAGRANGIAN FUNCTION
LORENTZ FORCE
MAGNETIC DIPOLES
MAGNETIC FIELDS
QUANTUM MECHANICS
RELATIVISTIC RANGE
TRANSFORMATIONS
VARIATIONS