Optical Properties of LiF in the Extreme Ultraviolet
スポンサーリンク
概要
- 論文の詳細を見る
The reflection spectrum of Lif single crystal was measured in the extreme ultraviolet region at room temperature. The Kramers-Kronig relation was applied to derive the optical constants n and K from the reflectivity. The maximum absorption coefficient and the peak position of the first fundamental band were determined to be 2.2±0.1×10^6 cm^<-1> and 12.7±0.1 ev respectively. Variations of the real and imaginary parts of the complex dielectric constant in the given region were analysed by the quantum-mechanical analogue of the Lorents dispersion formulas and the oscillator strength of the first fundamental band was determined to be 0.4±0.05/molecule. The value supports the excitation model of the exciton discussed by Dexter on NaCI. Experiments and discussions are also described on the effect of hydrolysis of LiF.
- 社団法人日本物理学会の論文
- 1961-12-05
著者
-
Kato Riso
Department Of Physics Faci4ty Of Science Kyoto University
-
KATO R.
Department of Mechanical Engineering, Akita University
-
Kato R.
Department of Physics, Faculty of Science, Kyoto University
関連論文
- Phonon Sidebands of v_Line in Absorption and Luminescence Spectra of NaNO_2:Spatial Dispersion of v_Exciton
- Irradiation-Induced VUV Absorption in MgF_2 Crystals
- Optical Study of the Triplet State in NaNO_2 Crystals : Excitonic Aspects of Phosphorescence Spectra
- Secondary Emission in NaNO_2 under Selective Excitation:Dispersion and Relaxation of ν_ Exciton
- Fine Structure in Luminescence Spectra of NaNO_2. II. Isotopic Lines and their Resonant Enhancement
- Refiection Measurements of RbI Films in the Ultraviolet
- Temperature Dependence of Raman Spectrum of AgNa (NO_2)_2
- Luminescence from a Thin Layer of O^-_2 Centers Introduced in Alkali Halide Crystal
- Triplet Absorption and Phase Transition in AgNa (NO_2)_2
- Resonant Secondary Emission in NaNO_2
- Hot Luminescence and Relaxation of Excited State in NaNO_2
- Time-Resolved Study of Exciton Thermalization in NaNo_2
- Temperature Variation of Phosphorescence Decay in NaNO_2 Crystals: Spin Lattice Relaxation of the Triplet State in No^-_2
- Optical Study on Alkali Halide Films in the Ultraviolet
- Raman Scattering and Phase Transition in AgNa (NO_2)_2
- The Optical Absorption of Localized Exciton in KCl-KI Crystal
- Optical Properties of Irradiated LiF Crystals in the Extreme Ultraviolet Region
- Reflection and Absorption Spectra of LiF in the Extreme Ultraviolet Region
- Optical Absorption of Localized Exciton in KCl:I and NaCl:I Single Crystals
- Optical Studies on Thallium-activated Alkali-iodide Crystals
- Luminescence of Defect-Induced Localized Excition States in PbI_2
- Fine Structures in Luminescence Spectra of NaNo_2 Crystal in the Ultraviolet Region
- Phonon Side Bands of UV Absorption in NaNO_2
- Phonon Side Bands of the Triplet Absorption in NaNO_2
- Low Energy Phonon Side Bands of UV Absorption in NaNO_2
- Temperature Dependence of UV Absorptions in KNO_3 and NaNO_3
- Vacuum Ultraviolet Absorption of the Alkali Nitrites and Nitrates
- Vibration-Assisted Absorption (B Band) in Alkali Halide-Thallium Crystals
- Vacuum Ultraviolet Absorption in Alkali-Nitries and Alkali-Nitrates
- Resonant Emission under Excitation of Isotopic Level in NaNO_2
- Optical Properties of LiF in the Extreme Ultraviolet
- Near Resonant Raman Scattering in NaNO_2
- Time Resolved Study of Photoluminescence from Se_2^-Molecule in KI
- Isotope Shifts of Zero-Phonon Transition in Highly Purified NaNO_2 Crystal
- Fractal Analysis of Three-dimensional Fracture Surfaces in Metals and Ceramics
- Factors Influencing Image Processing to Reconstruct Three-dimensional Fracture Surfaces by the Stereo Matching Method
- Optical Constants of LiF in the Extreme Ultraviolet
- Thallium Cluster in KI-Tl Crystals