A. Nougaoui scite author profile

We theoretically investigate the photonic band structure of one-dimensional superlattices composed of alternating layers of right-handed and left-handed materials (RHM and LHM). The dispersion curves are mainly studied by assuming that the dielectric permittivity and magnetic permeability are constant in each layer. It is shown that such structures can exhibit new types of electromagnetic modes and dispersion curves that do not exist in usual superlattices composed only of RHM. In particular, we emphasize the possibility of bands that originate from the interface modes localized at the boundary between a LHM and RHM or from confined modes in one type of layers. These waves are evanescent in both or in one constituent of the superlattice. One of the pass bands may lie below the light lines of the constituting material and go down to the static limit of a vanishing frequency omega, even at a value of the wave vector k(//) (parallel to the layers) that is different from zero. For a given value of the wave vector k(//), the dispersion curves omega versus k(z) (where k(z) is the Bloch wave vector of the periodic system along the axis of the superlattice) may exist only in a limited part of the superlattice Brillouin zone and exhibit a zigzag behavior instead of a monotonic behavior as in usual superlattices. With an appropriate choice of the parameters, we show that it is possible to realize an absolute (or omnidirectional) band gap for either transverse electric (TE) or transverse magnetic (TM) polarization of the electromagnetic waves. A combination of two multilayer structures composed of RHM and LHM is proposed to realize, in a certain range of frequency, an omnidirectional reflector of light for both polarizations.

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Elastic waves in periodically layered infinite and semi-infinite anisotropic media

Nougaoui

Rouhani

1987

Surface Science

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Acoustic waves in finite superlattices: Influence of buffer layers

et al. 1999

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Surface elastic waves in superlattices: Sagittal localized and resonant modes

1995

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A. Nougaoui

Theoretical analysis of the density of states and phase times: Application to resonant electromagnetic modes in finite superlattices

Band structure and omnidirectional photonic band gap in lamellar structures with left-handed materials

Elastic waves in periodically layered infinite and semi-infinite anisotropic media

Acoustic waves in finite superlattices: Influence of buffer layers

Surface elastic waves in superlattices: Sagittal localized and resonant modes

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