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Defect engineering of phase transition materials to create optical metasurfaces / von Diplom-Physiker Jura Rensberg

Active, widely tunable optical materials have enabled rapid advances in photonics and optoelectronics, especially in the emerging field of meta-devices. Of the tunable optical materials, one of the most prolifically studied is vanadium dioxide (VO2), which undergoes a reversible insulator-metal-tran... Full description

PPN (Catalogue-ID): 101910869X
Personen: Rensberg, Jura [VerfasserIn]
Cooperations/Conferences: Friedrich-Schiller-Universität Jena Physikalisch-Astronomische Fakultät [Grad-verleihende Institution]
Format: eBook eBook
Language: English
Zusammenfassungen in deutscher und englischer Sprache
Published: Jena, 2018
Hochschule: Dissertation, Friedrich-Schiller-Universität Jena, 2018
Basisklassifikation: 33.68
33.38
Subjects:

Metamaterial / Ionenimplantation / Oberfläche / Phasenumwandlung / Photonik / Vanadiumdioxid / Doppelbrechung / Dichroismus / Integriert-optischer Absorber / Integriert-optischer Polarisator

Formangabe: Hochschulschrift
Physical Description: Online-Ressource (PDF-Datei: 24,31 MB, 137 Seiten), Illustrationen, Diagramme.
Technische Details: PDF-Viewer.

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520 |a Active, widely tunable optical materials have enabled rapid advances in photonics and optoelectronics, especially in the emerging field of meta-devices. Of the tunable optical materials, one of the most prolifically studied is vanadium dioxide (VO2), which undergoes a reversible insulator-metal-transition (IMT) as the temperature reaches a critical temperature of approximately 67°C due to strong electron correlations. Effective optical properties of ultra-thin VO2 films arise as a consequence of the natural occurring phase coexistence within the temperature range of the IMT. In the first part of this thesis the application of ultra-thin VO2 films for optical metasurfaces in the mid-infrared spectral region is theoretically and experimentally investigated. The second part of this thesis is concerned with local ion beam modification of ultra-thin VO2 films. Energetic ion beams are widely used to modify the electronic and structural properties of solids by introducing impurity atoms into the crystal lattice. Commonly, the inevitable formation of irradiation damage during ion bombardment is described as disadvantageously for ion beam doping and subsequent post-implantation annealing procedures are required. Since the electronic structure of strongly electron correlated materials, such as VO2, is very sensitive to small amounts of lattice defects, ion beam induced damage formation combined with lithographic patterning is introduced and comprehensively studied in this thesis as a method to locally adjust the phase transitions of these materials. Using this robust technique, optical metasurfaces, including tunable absorbers with artificially induced phase coexistence and tunable polarizers based on thermally triggered dichroism in ultra-thin VO2 films are demonstrated. 
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