9, 10-Dichloroanthracene as a Dye Laser Material
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概要
- 論文の詳細を見る
- 社団法人応用物理学会の論文
- 1980-05-05
著者
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Matsui Atsuo
Department Of Physics Faci4ty Of Science Kyoto University
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Tomioka Kenichi
Department Of Physics Konan University
関連論文
- Time-Resolved Excitonic Luminescence Processes in Poly (phenylenevinylene)
- Wavelength-Dependent Decay Times and Time-Dependent Spectra of the Singlet-Exciton Luminescence in Anthracene Crystals
- Exciton Selt-Trapping in Tetracene Crystals:A Case of Shallow Self-Trap Depth
- Gas-Flow Cryostat
- Luminescence of Free and Self-Trapped Excitons in α- and β-Perylene Crystals
- Zero-Phonon Lines Associated with Self-Trapped Exciton States and Exciton Dynamics in β-Perylene
- Luminescence and Exciton Lattice Interaction in α-Perylene Crystals
- Exciton-Phonon Interaction in Phenanthrene Single Crystals under Pressure
- Lineshape Analysis of the 0-0 Exciton Absorption Band in Pyrene Crystals
- Intermediate Exciton-Phonon Coupling in Tetracene
- Growth of Single Crystal Film of One-Dimensional 9, 10-Dichloroanthracene
- The Optical Absorption of Localized Exciton in KCl-KI Crystal
- Reflection and Absorption Spectra of LiF in the Extreme Ultraviolet Region
- 9, 10-Dichloroanthracene as a Dye Laser Material
- RELAXANT ACTIONS OF PGE2 AND ITS DERIVATIVE (YPG-209) ON CANINE TRACHEAL SMOOTH MUSCLE AND THEIR ENHANCEMENT OF Ca++ UPTAKE BY THE MICROSOMAL FRACTION
- Thermomodulation Study of 0-0 Exciton Absorption Bands in Anthracene
- Reflectance Spectra and Optical Constants of Pyrene Crystals
- Recombination Luminescence in BaO
- Optical Absorption and Exciton Lattice Interaction in α- and β-Perylene
- High-Pressure Study of Excitons and Self-Trapped Excitons in Anthracene Crystals at 1.5K
- Size-Dependent Exciton Densities of States and Exciton Bandwidths in Anthracene Microcrystallites
- Self Trapping of Excitons in Monomeric Perylene Crystals
- Luminescence of Free and Self Trapped Excitons in Pyrene
- Frenkel Exciton Dynamics in Anthracene under High Pressure and Quasi-Free Exciton State
- Optical Properties of Polyacetylene
- Optically Detected Low Temperature Phase in Pyrene Crystals