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Knotting and unknotting of phase singularities: Helmholtz waves, paraxial waves and waves in 2+1 spacetime

By M.V. Berry and M.R. Dennis

Abstract

As a parameter a is varied, the topology of nodal lines of complex scalar waves in space (i.e. their dislocations, phase singularities or vortices) can change according to a structurally stable reconnection process involving local hyperbolas whose branches switch. We exhibit families of exact solutions of the Helmholtz equation, representing knots and links that are destroyed by encounter with dislocation lines threading them when a is increased. In the analogous paraxial waves, the paraxial prohibition against dislocations with strength greater than unity introduces additional creation events. We carry out the analysis with polynomial waves, obtained by long-wavelength expansions of the wave equations. The paraxial events can alternatively be interpreted as knotting and linking of worldlines of dislocation points moving in the plane

Topics: QA, QC
Year: 2001
DOI identifier: 10.1088/0305-4470/34/42/311
OAI identifier: oai:eprints.soton.ac.uk:29379
Provided by: e-Prints Soton
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Citations

  1. (1981). Singularities in waves and rays Les Houches

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