Commensurability resonances in two-dimensional magnetoelectric lateral superlattices

Multiplexing complex two-dimensional photonic superlattices.

We introduce a universal method to optically induce multiperiodic photonic complex superstructures bearing two-dimensional (2D) refractive index modulations over several centimeters of elongation. These superstructures result from the accomplished superposition of 2D fundamental periodic structures. To find the specific sets of fundamentals, we combine particular spatial frequencies of the resp...

Optical properties of two-dimensional magnetoelectric point scattering lattices

Tight-binding model for strongly modulated two-dimensional superlattices

Common models describing magnetotransport properties of periodically modulated two–dimensional systems often either directly start from a semiclassical approach or give results well conceivable within the semiclassical framework. Recently, magnetoresistance oscillations have been found on samples with strong unilateral modulation and short period (d = 15 nm) which cannot be explained on a semic...

Dispersion-guided resonances in two-dimensional photonic-crystal-embedded microcavities.

We analyze dispersion-based guiding of resonances in two-dimensional (2-D) photonic-crystal-embedded microcavities (PCEMs) that comprise a finite-size square lattice of submicrometer air holes embedded in a high-index contrast square microcavity. Our 2-D finite-difference time-domain simulations of waveguide side-coupled PCEMs suggest high-Q quasi-periodic multimodes within the PC first band. T...

Weak lasing in one-dimensional polariton superlattices.

Bosons with finite lifetime exhibit condensation and lasing when their influx exceeds the lasing threshold determined by the dissipative losses. In general, different one-particle states decay differently, and the bosons are usually assumed to condense in the state with the longest lifetime. Interaction between the bosons partially neglected by such an assumption can smear the lasing threshold ...