C. Duncan scite author profile

C. Duncan

2Publications

21Citation Statements Received

79Citation Statements Given

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Centre for Ultrahigh Bandwidth Devices for Optical Systems, University of Sydney

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New avenues for phase matching in nonlinear hyperbolic metamaterials

Duncan

Perret

Palomba

et al. 2015

Sci Rep

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Nonlinear optical processes, which are of paramount importance in science and technology, involve the generation of new frequencies. This requires phase matching to avoid that light generated at different positions interferes destructively. Of the two original approaches to achieve this, one relies on birefringence in optical crystals, and is therefore limited by the dispersion of naturally occurring materials, whereas the other, quasi-phase-matching, requires direct modulation of material properties, which is not universally possible. To overcome these limitations, we propose to exploit the unique dispersion afforded by hyperbolic metamaterials, where the refractive index can be arbitrarily large. We systematically analyse the ensuing opportunities and demonstrate that hyperbolic phase matching can be achieved with a wide range of material parameters, offering access to the use of nonlinear media for which phase matching cannot be achieved by other means. With the rapid development in the fabrication of hyperbolic metamaterials, our approach is destined to bring significant advantages over conventional techniques for the phase matching of a variety of nonlinear processes.

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Phase matching in hyperbolic wire media for nonlinear frequency conversion

Zhao¹,

Duncan²,

Kuhlmey³

et al. 2015

Opt. Express

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Efficient nonlinear frequency conversion requires a phase matching condition to be satisfied. We analyze the dispersion of the modes of hyperbolic wire metamaterials and demonstrate that phase matching at infrared wavelengths can be achieved with a variety of constituent materials, such as GaAs, in which phase matching cannot easily be achieved by conventional means. Our finding promises access to many materials with attractive nonlinear properties.

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C. Duncan

New avenues for phase matching in nonlinear hyperbolic metamaterials

Phase matching in hyperbolic wire media for nonlinear frequency conversion

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