ESR Study of Latent Image Specks in Silver Halide Crystals
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概要
- 論文の詳細を見る
So-called conduction electron spin resonance (CESR) signals of silver specks in silver halide crystals quenched from melt with excess silver are studied in relation to the quantum size effect. The proportionality relationship between g-shift and half-width is verified in the gradual growth of silver specks. The early stage of silver growth is attributed to the accumulation of silver atoms onto the antisite silver atoms. The gradual growth rate is explained by taking account of the electric field effects of a trapped electron. The g-shift and half-width are indifferent of temperature, and the Kawabata theory is partly revived phenomenologically instead of the Myles theory to explain the number of silver atoms in a particle of latent images.
- 社団法人応用物理学会の論文
- 1990-07-20
著者
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Sonoike Sanemi
Faculty Of Engineering Chuo University
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Yoda R
Faculty Of Science And Engineering Chuo University
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Yoda Ryuuichi
Faculty Of Science And Engineering Chuo University
関連論文
- The Distribution Coefficient of Sulphur Ions in Silver Chloride
- Saturation Properties of Paramagnetic Sulphur Centers in Silver Chloride Crystals
- Internal Friction Measurements of Silver Halide Crystals
- ENDOR Study of S Center in AgCl
- Anomalous Specific Heat of Silver Chloride Crystals Doped with Sulphur
- ESR Study of Silver Chloride Crystals Doped with Sulphur Ions and Mercury Ions
- The Profile of Sharp Peaks of Internal Friction in Silver Halide Crystals
- Effects of Impurity States on the Anomalous Specific Heat of AgCl:S
- Temperature Dependence of Surface Voltage of Silver Bromide
- ESR Study of Silver Specks in Silver Halide Crystals
- Light Scattering in Silver Halide Crystals
- ESR Study of Latent Image Specks in Silver Halide Crystals
- Luminescence of Doped Silver Chloride Crystals
- Study of Sharp Peaks in Internal Friction versus Temperature Curves in Silver Halide Crystals
- Observation of the Decomposition Processes of Thin Films of Silver Halide Crystals in Electron Microscope
- New Center Formation in Silver Halide Crystals Doped with Sulphur
- Charged Dislocations in Silver Halide Crystals