Persistent spectral hole burning studies of F2 color center in lithium fluoride
Author:
Publisher
Elsevier BV
Subject
Condensed Matter Physics,Biochemistry,General Chemistry,Atomic and Molecular Physics, and Optics,Biophysics
Reference15 articles.
1. Physics of Color Centers;Fowler,1968
2. Optical Properties and Mechanism of Formation of SomeF-Aggregate Centers in LiF
3. F-2 centers in LiF
4. Radiative and nonradiative processes in the optical cycle of theF3+center in LiF
5. Discrete Phonon and Zero-Phonon Optical Absorption Spectra in Alkali Halides
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1. Features of Determining a Purely Electronic Transition from Diffuse Absorption or Emission Spectra at Low Temperatures;Journal of Applied Spectroscopy;2021-01
2. Transformation of Radiation-Induced Molecular Point Defects and Color Centers in LiF Crystals under Influence of Light;Physics of the Solid State;2019-10
3. Zero-phonon lines and electron–phonon interaction characteristics of near-surface layer radiation color centers in lithium fluoride;Journal of Luminescence;2016-04
4. Optical hole burning studies in europium doped oxide glasses;Journal of Non-Crystalline Solids;2006-05
5. Persistent spectral hole burning studies of europium-doped sodium germanate glass;Journal of Applied Physics;2004-10
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