Fourier theory of linear gain media

Hans Olaf Hågenvik, Markus E. Malema, and Johannes Skaar
Phys. Rev. A 91, 043826 – Published 15 April 2015

Abstract

The analysis of wave propagation in linear, passive media is usually done by considering a single real frequency (the monochromatic limit) and also often a single plane-wave component (plane-wave limit). For gain media, we demonstrate that these two limits generally do not commute; for example, one order may lead to a diverging field, while the other order leads to a finite field. Moreover, the plane-wave limit may be dependent on whether it is realized with a finite-support excitation or Gaussian excitation, eventually of infinite widths. We consider wave propagation in gain media by a Fourier-Laplace integral in space and time, and demonstrate how the correct monochromatic limit or plane-wave limit can be taken, by deforming the integration surface in complex frequency–complex wave-number space. We also give the most general criterion for absolute instabilities. The general theory is applied in several cases, and is used to predict media with novel properties. In particular, we show the existence of isotropic media which in principle exhibit simultaneous refraction, meaning that they refract positively and negatively at the same time.

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  • Received 1 July 2014

DOI:https://doi.org/10.1103/PhysRevA.91.043826

©2015 American Physical Society

Authors & Affiliations

Hans Olaf Hågenvik, Markus E. Malema, and Johannes Skaar*

  • Department of Electronics and Telecommunications, Norwegian University of Science and Technology, NO-7491 Trondheim, Norway

  • *johannes.skaar@ntnu.no

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Issue

Vol. 91, Iss. 4 — April 2015

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