Compression for data archiving and backup revisited
Corneliu Constantinescu
SPIE Optical Engineering + Applications 2009
We have observed spin-polarized confinement of both electrons and holes in ZnSe-based single and multiple quantum well structures. The samples were grown by molecular beam epitaxy with 100 A Zn0 99Fe0.0lSe barriers and 100–200 A ZnSe wells. In these systems, the band offsets are very small, so that the large spin-splitting of the diluted magnetic semiconductor levels dominates the alignment of both the conduction and valence bands, permitting magnetic field-tunable confinement. Magnetoreflectivity measurements show a pronounced asymmetry of the heavy hole spin-splitting, a signature of spin-dependent quantum confinement. The relative phase and near-unity intensity ratio of the “spin-up” and “spin-down” excitons confirm localization of spin-up carriers to the ZnSe wells and spin-down carriers to the ZnFeSe layers, producing a field-tunable “spin-superlattice.” These results will be compared to those obtained for higher magnetic ion concentrations in the barriers. © 1992, American Vacuum Society. All rights reserved.
Corneliu Constantinescu
SPIE Optical Engineering + Applications 2009
Q.R. Huang, Ho-Cheol Kim, et al.
Macromolecules
Gregory Czap, Kyungju Noh, et al.
APS Global Physics Summit 2025
William Hinsberg, Joy Cheng, et al.
SPIE Advanced Lithography 2010