Historically, the physics, energy spectrum, and wave functions of superlattices have had
different levels of understanding. Unlike the standard approaches, based on theorems for …

We investigate the reshaping of Gaussian laser pulses transmitted through a two-defect
nonlinear one-dimensional photonic crystal using the transfer matrix method and the Fourier …

Книга посвящена описанию когерентных нелинейных оптических явлений,
возникающих при взаимодействии интенсивных лазерных импульсов с …

Using the analytical expressions for the genuine eigenfunctions φ μ ν (z) and eigenvalues E
μ, ν, of open, bounded and quasi-bounded finite periodic systems, we derive the …

We present a theoretical study of the reshaping of subpicosecond optical pulses in the
vicinity of double-peaked defect-mode frequencies in the spectrum of a one-dimensional …

Tunneling time (or group delay) for an optical pulse to transmit the energy through a
photonic bandgap is calculated analytically for a one-dimensional multilayered optical …

Transmission of electromagnetic fields through (dielectric/metallic) n superlattices, for
frequencies below the plasma frequency ω p, is a subtle and important topic that is reviewed …

Using the genuine superlattice eigenvalues and eigenfunctions, and their parity symmetries,
new transition selection rules are derived, and a novel approach for the explicit calculation …

The tunnelling of a long-time (about 100 μs) frequency-modulated electromagnetic pulse
through a one-dimensional active dielectric photonic crystal and the influence of the …

Events of giant conductance and anomalies of the phase transmission time for holes are
theoretically investigated within the multicomponent scattering approach. Based on this …