Enhancement of magnetic dipole emission at optical frequencies

POSTER

Abstract

In general, the magnetic dipole (MD) transition rates are orders of magnitude smaller than the electric dipole (ED) transition. As a result, the MDs interact very weakly with the magnetic field component of incident light. However, for a focused cylindrical azimuthal incident beam, the ratio of the maximum magnetic and electric field intensities can be significantly enhanced compared to a plane wave in free space. Here, we demonstrate that that the focused azimuthally polarized beam can enhance the MD emission by approximately 4 times compared to ED emission in Europium ions, which are otherwise comparable for linear excitation.

Authors

  • Daniel Eggena

    Illinois State University

  • Phil Richerme

    Choice Research Group, Valparaiso University, Univ of Chicago, PUC-Rio, Illinois State University, Missouri State University, Argonne Natl Lab, None, University of Illinois at Chicago, Institut Laue-Langevin, Purdue Univ, Department of Physics, Indiana University Bloomington

  • Phil Richerme

    Choice Research Group, Valparaiso University, Univ of Chicago, PUC-Rio, Illinois State University, Missouri State University, Argonne Natl Lab, None, University of Illinois at Chicago, Institut Laue-Langevin, Purdue Univ, Department of Physics, Indiana University Bloomington

  • Phil Richerme

    Choice Research Group, Valparaiso University, Univ of Chicago, PUC-Rio, Illinois State University, Missouri State University, Argonne Natl Lab, None, University of Illinois at Chicago, Institut Laue-Langevin, Purdue Univ, Department of Physics, Indiana University Bloomington