Search for dissertations about: "tmds"
Showing result 1 - 5 of 22 swedish dissertations containing the word tmds.
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1. Medication in temporomandibular disorders and bruxism
Abstract : The aim of this thesis was to explore aspects of pharmaceutical intervention in temporomandibular disorders (TMDs) and bruxism. Sleep bruxism is a movement disorder that signals disturbed sleep and constitutes a significant health problem due to TMDs, headache and tooth wear. READ MORE
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2. Microscopic Mechanisms of the Formation, Relaxation and Recombination of Excitons in Two-Dimensional Semiconductors
Abstract : Monolayers of Transition Metal Dichalcogenides (TMDs) present a giant leap forward towards the realization of semiconductor devices with atomic scale thickness. As a natural consequence of their two-dimensional character TMDs exhibit a reduced dielectric screening, leading to the formation of unusually stable excitons, i.e. READ MORE
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3. Microscopic Theory of Exciton Dynamics in Two-Dimensional Materials
Abstract : Transition Metal Dichalcogenides (TMDs) present a giant leap forward towards the realization of nanometer-sized quantum devices. As a direct consequence of their truly two-dimensional character, TMDs exhibit a strong Coulomb-interaction, leading to the formation of stable electron-hole pairs, so-called excitons. READ MORE
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4. Microscopic Theory of Charge Complexes in Atomically-Thin Materials
Abstract : Atomically-thin materials have emerged as the most promising two-dimensional platform for future optoelectronic applications and for the study of quantum many-body physics. In particular, transition metal dichalcogenides (TMDs) exhibit strong Coulomb interaction, resulting in the formation of tightly-bound electron-hole complexes that dominate optics, dynamics, and transport. READ MORE
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5. Microscopic Modeling of Exciton Propagation and Dissociation in Two-Dimensional Materials
Abstract : 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. READ MORE