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Inverse Borrmann effect in photonic crystals

Other Condensed Matter 2015-05-13 v2
Authors: A. P. Vinogradov , Yu. E. Lozovik , A. M. Merzlikin , A. V. Dorofeenko , I. Vitebskiy , A. Figotin , A. B. Granovsky , A. A. Lisyansky
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Abstract

The Borrmann effect, which is related to the microscopic distribution of the electromagnetic field inside the primitive cell, is studied in photonic and magnetophotonic crystals. This effect, well-known in x-ray spectroscopy, is responsible for the enhancement or suppression of various linear and nonlinear optical effects when the incidence angle and/or the frequency change. It is shown that by design of the primitive cell this effect can be suppressed and even inverted.

Keywords

atomic and molecular interactions radiation emission light propagation and speed of light

Cite

@article{arxiv.0903.1073,
  title  = {Inverse Borrmann effect in photonic crystals},
  author = {A. P. Vinogradov and Yu. E. Lozovik and A. M. Merzlikin and A. V. Dorofeenko and I. Vitebskiy and A. Figotin and A. B. Granovsky and A. A. Lisyansky},
  journal= {arXiv preprint arXiv:0903.1073},
  year   = {2015}
}

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