Surface electronic structure of periodically δ-doped superlattice

The interaction between electron excitations and LO phonons is studied by Raman scattering in δ-doping GaAs superlattices. The Raman spectra measured close to the E 0 + 0 resonance of GaAs present Fano-like coupling of the LO phonons with the quasicontinuum single-particle electron excitations. Due

We have theoretically investigated the subband structure of single Si δ-doped GaAs inserted into a quantum well at T = 0 K. We will discuss the influence of the δ-doping concentration, the δ-layer thickness and diffusion of donor impurities. The spread of the impurities are taken into account in two

Self-consistent hole band structure calculations are performed for p-type δ-doped quantum wells and superlattices (SLs) in Si by solving the six-band Luttinger-Kohn effective mass equations, together with Poisson equation, in a plane-wave representation. Nonparabolicities due to couplings between he

The minibands of p-type δ-doping superlattices (SLs) in GaAs are studied in dependence on acceptor sheet doping concentrations N A and SL periods d. The calculations rely on effective mass theory, applied to the 8 valence band hole gas. Hole-hole interaction is selfconsistently taken into account, i