Negative refractive index in dielectric crystals containing stoichiometric rare-earth ions
Abstract
We investigate the prospect of achieving negative permittivity and permeability at optical frequencies in a dielectric crystal containing stoichiometric rare-earth ions. We derive the necessary transition linewidth, ion density and electric and magnetic oscillator strengths using a simplified model of non-interacting dipoles. We identify Erbium crystals in a magnetically ordered phase as the most promising material to meet these conditions, and describe initial optical measurements of two potential candidates, and 7, which display linewidths of 3~GHz and 250~MHz, respectively. The properties of 7 satisfied our criterion for negative permeability.
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