Werner S. Weiglhofer scite author profile

We study electromagnetic wave propagation in mediums in which the effective relative permittivity and the effective relative permeability are allowed to take any value in the upper half of the complex plane. A general condition is derived for the phase velocity to be oppositely directed to the power flow. That extends the recently studied case of propagation in mediums for which the relative permittivity and relative permeability are both simultaneously negative, to include dissipation as well. An illustrative case study demonstrates that in general the spectrum divides into five distinct regions.

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Strong-property-fluctuation theory for homogenization of bianisotropic composites: Formulation

Mackay

Lakhtakia

Weiglhofer

2000

Phys. Rev. E

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The strong-property-fluctuation theory is developed for the homogenization of the linear dielectric, magnetic, and magnetoelectric properties of a two-constituent bianisotropic composite. The notion of a bianisotropic comparison medium (BCM) is introduced to serve as a springboard for the Dyson equation satisfied by the ensemble-averaged electromagnetic field. With the constitutive properties of the BCM serving as the zeroth-order solution of the Dyson equation, the first-order correction, known as the bilocal approximation, is obtained. Wave propagation in the composite can be described in this manner by a nonlocal effective medium containing information about the spatial correlations of the constitutive properties. For scales larger than the correlation length, the nonlocality vanishes and a local effective medium emerges. Analytical results for the local effective constitutive properties are presented after assuming a spherical particulate topology for the constituent mediums. Illustrative numerical results are provided.

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Maxwell Garnett and Bruggeman formalisms for a particulate composite with bianisotropic host medium

Weiglhofer

Lakhtakia

Michel

1997

Microw. Opt. Technol. Lett.

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Brief Overview of Recent Developments on Negative Phase–Velocity Mediums (alias Left–Handed Materials)

Lakhtakia

McCall

Weiglhofer

2002

AEU - International Journal of Electronics and Communications

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Dyadic Green's functions for general uniaxial media

Weiglhofer

1990

IEE Proc. H Microw. Antennas Propag. UK

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