Add to ORKGThis thesis investigates the interplay between reduced dimensionality, electronic structure, and interface effects in ultrathin metal layers (Pb, In, Al) on a variety of substrates (Si, Cu, graphite). These layers can be grown with such a perfection that electron confinement in the direction normal to the film leads to the occurrence of quantum well states in their valence bands. These quantum well states are studied in detail, and their behaviour with film thickness, on different substrates, and other parameters of growth are used here to characterise a variety of physical properties of such nanoscale systems. The sections of the thesis deal with a determination of quantum well state energies for a large data set on different systems, the ...
Three studies of thin metal films grown on semiconductor and insulator substrates are presented. Thi...
When the thickness of a film approaches the nanoscale, the confinement of electrons in the film by i...
Quantum size effects are calculated in thin layered semiconductor-metal-semi-conductor structures us...
This thesis investigates the interplay between reduced dimensionality, electronic structure, and int...
This thesis investigates the interplay between reduced dimensionality, electronic structure, and int...
Title 1 Background and theory 1 1.1. Towards quantum size effects 1.2. Quantum well states...
This dissertation examines the properties of nanoscale, atomically uniform Pb films grown on Si. We ...
Ultrathin metallic films may act as quantum boxes when some conditions are met. Here, we discuss the...
The substrate lattice structure may have a considerable influence on the formation of quantum well s...
Confinement of electrons can occur in metal islands or in continuous films grown heteroepitaxially u...
Electronic states are quantized in metallic thin films. Coupled with angular resolution, this allows...
This dissertation examines the electronic properties of 2D electron systems, including ultrathin met...
Electron confinement in thin films of Pb on Cu(111) leads to the formation of quantum well states, f...
Epitaxial films that are only several atoms layers thick exhibit interesting properties associated w...
As the size of a metallic system approaches the atomic scale, deviations from the bulk are expected ...
Three studies of thin metal films grown on semiconductor and insulator substrates are presented. Thi...
When the thickness of a film approaches the nanoscale, the confinement of electrons in the film by i...
Quantum size effects are calculated in thin layered semiconductor-metal-semi-conductor structures us...
This thesis investigates the interplay between reduced dimensionality, electronic structure, and int...
This thesis investigates the interplay between reduced dimensionality, electronic structure, and int...
Title 1 Background and theory 1 1.1. Towards quantum size effects 1.2. Quantum well states...
This dissertation examines the properties of nanoscale, atomically uniform Pb films grown on Si. We ...
Ultrathin metallic films may act as quantum boxes when some conditions are met. Here, we discuss the...
The substrate lattice structure may have a considerable influence on the formation of quantum well s...
Confinement of electrons can occur in metal islands or in continuous films grown heteroepitaxially u...
Electronic states are quantized in metallic thin films. Coupled with angular resolution, this allows...
This dissertation examines the electronic properties of 2D electron systems, including ultrathin met...
Electron confinement in thin films of Pb on Cu(111) leads to the formation of quantum well states, f...
Epitaxial films that are only several atoms layers thick exhibit interesting properties associated w...
As the size of a metallic system approaches the atomic scale, deviations from the bulk are expected ...
Three studies of thin metal films grown on semiconductor and insulator substrates are presented. Thi...
When the thickness of a film approaches the nanoscale, the confinement of electrons in the film by i...
Quantum size effects are calculated in thin layered semiconductor-metal-semi-conductor structures us...