3 edition of Exciton self-trapping in rare gas crystals found in the catalog.
Exciton self-trapping in rare gas crystals
Written in English
|Statement||by Marlo Martin.|
|LC Classifications||Microfilm 40078 (Q)|
|The Physical Object|
|Number of Pages||3299|
|LC Control Number||88893424|
Kietzmann, A. As a result, absorption bands are polarized along the symmetry axes of the crystal. Electronic and Vibrational Relaxation. Interaction among Atoms. Ovcharenko, A.
Trademark Notice: Product or corporate names may be trademarks or registered trademarks, and are used only for identification and explanation without intent to infringe. Mattias: Modulated thermoreflectance imaging of hidden electric current distributions in thin-film layered structures. Diffusion Only. Tverjanovich, M. As a result, absorption bands are polarized along the symmetry axes of the crystal. A 95,
Agrawal, P. Makromolekulare ChemieB. Pattanayak and G. B 27,
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Froben, M. Koshiba, and G. Kay, M. Johnson: Phys. Grigorashchenko, E. Resonant Electronic States. Levanon, V. Schwentner : An experimental evidence to Rydbergization of antibonding Molecular Orbitals. Tufts, and B. He was recognized by the Electrochemical Society in for his contributions to advances in phosphor research.
Hu, K. Meinke, E. Song: J. We analyze the ground state phase diagram and uncover three distinct phases: a uniform superfluid SFa chiral superfluid CSF and a plaquette Mott insulator with local current loops PMI.
Kisliuk and D. Bernard, M. Langer, M. Wassermann, S. Xiao, G. Rettig und W. Topics Quantum Electron. Schwentner, F. Miller, S. Rothamel, T. New theoretical tools and experimental setups must be developed to explore and utilize its unique optical properties.
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Krems, Tunable exciton interactions in optical lattices with polar molecules, Physical Review A 85, (R) (). F. Herrera and R. V. Krems. Nikolaus Schwentner was born in Rosenheim, Germany, in He received his Diploma in and his Ph.D.
in from the University of Munich under the supervision of Professor Wulf Steinmann. His Ph.D. work was centered on the photoelectron emission from pure and doped rare gas films with experiments at DESY in Hamburg and Tel Aviv. The simplest atomic crystals, i.e. rare-gas solids, are qualitatively different from other dielectrics by a high atomic ionization potential which inhibits the formation of covalent bindings and provides a simple electronic structure: an excited weakly bound electron moves in the free space between inert atoms placed in the lattice atlasbowling.com by: The higher-energy band observed at eV is the indirect exciton luminescence, and the lower-energy band observed at eV is the bound exciton luminescence of iodine impurities.
In contrast to AgBr bulk crystals, the indirect exciton luminescence is strong compared with the bound exciton luminescence at iodine impurities. Self-trapping of an optical vortex in photovoltaic and biased photorefractive media.
Zhigang Chen, Mordechai Segev, Daniel W. Wilson, Richard E. Muller, and Paul D. Maker. QThH3 Quantum Electronics and Laser Science Conference (QELS) View: PDF. The kinetics of the process of defect accumulation in rare-gas solids as a result of exciton self-trapping was studied using the selective vacuum ultraviolet photoluminescence method for.