The non-relativistic limits of the Maxwell and Dirac equations: the role of Galilean and gauge invariance

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Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 34 (2):161-187 (2003)
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Abstract

The aim of this paper is to illustrate four properties of the non-relativistic limits of relativistic theories: that a massless relativistic field may have a meaningful non-relativistic limt, that a relativistic field may have more than one non-relativistic limit, that coupled relativistic systems may be "more relativistic" than their uncoupled counterparts, and that the properties of the non-relativistic limit of a dynamical equation may differ from those obtained when the limiting equation is based directly on exact Galilean kinematics. These properties are demonstrated through an examination of the non-relativistic limit of the familiar equations of first-quantized QED, i.e., the Dirac and Maxwell equations. The conditions under which each set of equations admits non-relativistic limits are given, particular attention being given to a gauge-invariant formulation of the limiting process especially as it applied to the electromagnetic potentials. The difference between the properties of a limiting theory and an exactly Galilean covariant theory based on the same dynamical equation is demonstrated by examination of the Pauli equation.

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10.1016/s1355-2198(03)00005-4

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Harvey Brown
Oxford University

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References found in this work

Two concepts of intertheoretic reduction.Thomas Nickles - 1973 - Journal of Philosophy 70 (April):181-201.
On the meaning of the relativity principle and other symmetries.Harvey R. Brown & Roland Sypel - 1995 - International Studies in the Philosophy of Science 9 (3):235 – 253.
The logic of reduction: The case of gravitation. [REVIEW]Fritz Rohrlich - 1989 - Foundations of Physics 19 (10):1151-1170.

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