Symmetry (Sep 2019)

Null Electromagnetic Fields from Dilatation and Rotation Transformations of the Hopfion

  • Manuel Arrayás,
  • Antonio F. Rañada,
  • Alfredo Tiemblo,
  • José L. Trueba

DOI
https://doi.org/10.3390/sym11091105
Journal volume & issue
Vol. 11, no. 9
p. 1105

Abstract

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The application of topology concepts to Maxwell equations has led to the developing of the whole area of electromagnetic knots. In this paper, we apply some symmetry transformations to a particular electromagnetic knot, the hopfion field, to get a new set of knotted solutions with the properties of being null. The new fields are obtained by a homothetic transformation (dilatation) and a rotation of the hopfion, and we study the constraints that the transformations must fulfill in order to generate valid electromagnetic fields propagating in a vacuum. We make use of the Bateman construction and calculate the four-potentials and the electromagnetic helicities. It is observed that the topology of the field lines does not seem to be conserved as it is for the hopfion.

Keywords