The main purposes of this paper are (i) to illustrate explicitly by a number of examples the gauge functions whose spatial and temporal derivatives transform one set of electromagnetic potentials into another equivalent set; and (ii) to show that, whatever propagation or nonpropagation characteristics are exhibited by the potentials in a particular gauge, the electric and magnetic fields are always the same and display the experimentally verified properties of causality and propagation at the speed of light. The example of the transformation from the Lorenz gauge (retarded solutions for both scalar and vector potential) to the Coulomb gauge (instantaneous, action-at-a-distance, scalar potential) is treated in detail. A transparent expression is obtained for the vector potential in the Coulomb gauge, with a finite nonlocality in time replacing the expected spatial nonlocality of the transverse current. A class of gauges (v-gauge) is described in which the scalar potential propagates at an arbitrary speed ν relative to the speed of light. The Lorenz and Coulomb gauges are special cases of the v-gauge. The last examples of gauges and explicit gauge transformation functions are the Hamiltonian or temporal gauge, the nonrelativistic Poincaré or multipolar gauge, and the relativistic Fock–Schwinger gauge.
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September 2002
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September 01 2002
From Lorenz to Coulomb and other explicit gauge transformations
J. D. Jackson
J. D. Jackson
Department of Physics and Lawrence Berkeley National Laboratory, University of California, Berkeley, Berkeley, California 94720
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Am. J. Phys. 70, 917–928 (2002)
Article history
Received:
April 12 2002
Accepted:
May 10 2002
Citation
J. D. Jackson; From Lorenz to Coulomb and other explicit gauge transformations. Am. J. Phys. 1 September 2002; 70 (9): 917–928. https://doi.org/10.1119/1.1491265
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