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Canonical Approach to Photon PressureC. Baxter, M. Babiker, R. LoudonPhysical Review A, 47, 1278 (1993)AbstractA theory of radiation pressure and its effects on the gross motion of an aggregate of charges is established within a canonical framework. The theory indicates the existence of radiation pressure effects arising from an additional interaction — the Röntgen interaction — whose origin is the classical Röntgen current. A careful development of the formalism reveals the importance of distinguishing between the canonical and mechanical momenta of the gross motion of the aggregate and of incorporating the Röntgen-type interaction terms when calculating the gross-motion dynamics. A form of the Röntgen interaction is present even in the dipole approximation: an effect which has previously been ignored but which is necessary to ensure gauge invariance of the radiation-induced mechanical force. Explicit calculations of the rates of change of canonical and mechanical momenta are presented for a general atomic dipole, with specializations to a two-level atom, revealing the presence of velocity-dependent terms in a natural way. The formalism is consistent with the Minkowski form of the classical momentum density of an electromagnetic field. |
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