Sökning: "Rydberg interaction"
Visar resultat 1 - 5 av 10 avhandlingar innehållade orden Rydberg interaction.
1. Intracellular Uptake and Membrane Binding of Cell-penetrating Peptides: The Influence of Arginines, Tryptophans and Proteoglycans
Sammanfattning : One of the major limitations in the realization of functional gene therapy is efficient intracellular transport of the therapeutic macromolecules. Amongst several different techniques, cell-penetrating peptides (CPPs) have emerged as promising candidates for this purpose. LÄS MER
2. Membrane Active Arginine and Tryptophan Rich Peptides
Sammanfattning : Genetic diseases, cancer and antibiotic resistant bacterial infections are causing many people a great deal of suffering every year. Treatment and cure of these medical conditions are desirable, but also challenging for the medical industry. LÄS MER
3. Protein-protein interactions in model systems : design, control of catalytic activity and biosensor applications
Sammanfattning : This thesis describes the design of polypeptides, unordered in the monomeric state but capable of folding into helix-loop-helix motifs and dimerise to form four-helix bundles. The goal of the design was to encode them with the capacity to form dimers highly selectively and the ability to carry out molecular functions in the folded state but not in the unordered state, and thus to establish a molecular link between recognition and function. LÄS MER
4. Fast and Scalable Entangling Gate in Trapped Ions via Rydberg Interaction
Sammanfattning : Trapped Rydberg ions are a novel platform for quantum information processing. This approach combines the advanced quantum control of trapped ions and the strong dipolar interaction of Rydberg atoms. LÄS MER
5. Applications of motional control in trapped Rydberg ion experiments
Sammanfattning : Trapped ion systems are one of the leading technologies for the development of various novel quantum devices, including computers, simulators and enhanced sensors. Ion traps offer a high level of control in terms of both the electronic and motional states of individual quantum systems. LÄS MER