Sökning: "microscopic appearance"
Visar resultat 1 - 5 av 17 avhandlingar innehållade orden microscopic appearance.
1. Microscopic Modeling of Exciton Propagation and Dissociation in Two-Dimensional Materials
Sammanfattning : Atomically thin materials have been in the spotlight of research during the last decade due to their exceptional properties, providing a platform for the study of novel physical phenomena. In particular, transition metal dichalcogenides (TMDs) have emerged as promising atomically thin materials for future optoelectronic applications owing to their strong light-matter interaction and their high tunability. LÄS MER
2. Light microscopic assessment of the dermal inflammatory cell infiltrate in experimental inflammatory reactions
Sammanfattning : In vivo experimental models have been used traditionally for the study of inflammatory contact reactions in the skin. The naked eye appearance and the histology of the skin reaction is in principle similar to that seen in man. LÄS MER
3. Multiple Andreev Reflection - a Microscopic Theory of ac Josephson Effect in Mesoscopic Junctions
Sammanfattning : The mechanism of multiple Andreev reflection (MAR) is a microscopic theory for electron transport in voltage biased superconducting junctions, i.e. the ac Josephson effect. In this thesis we propose a new approach for calculating the dc current from MAR. LÄS MER
4. Spatiotemporal carrier dynamics in graphene
Sammanfattning : Graphene as an atomically thin material exhibits remarkable optical and electronic properties that suggest its technological application in novel optoelectronic devices, such as graphene-based photodetectors and lasers. To understand the properties of such devices on a microscopic level, we study the interplay of optical excitation, carrier-carrier, carrier-phonon, and carrierphoton scattering as well as diffusion processes. LÄS MER
5. The metal-to-nonmetal transition
Sammanfattning : What distinguishes a metal from an insulator? The macroscopic differences are apparent: we immediately note the distinction between the shiny metal which conducts electricity and the colored, sometimes transparent appearance of the insulator. But which are the microscopic criteria that tell us to which of these two macroscopic classes a certain material should belong? An answer to this question must involve an understanding, at least qualitatively of the nature of the electronic system in question. LÄS MER