Theory of the Nuclear Magnetic Relaxation in Crystalline Solids, I : Direct Process
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概要
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As is well-known, the nuclear magnetic relaxation due to the lattice vibrations of the crystalline solids has not yet been completely clarified since both theories proposed by Bloembergen and Pound ssem to be valid for the special kinds of crystalline solids. In view of these situations, therefore, we hare here presented theoretically a new mechanism of the nuclear magnetic relaxation in crystalline solids in which the crystal electron plays an important role in the intermediate states of the second or third order transition processes. Such a mechanism for the nuclear magnetic relaxation may be considered to be actually realized in all the crystalline solids. The orders of magnitude for the nuclear magnetic relaxation times are found to be in good agreements with the available experimental observations in view of our general theory being based upon the rather simplified model of Wilson for the crystalline insulators.
- 理論物理学刊行会の論文
著者
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WATANABE M.
Institute of Multidisciplinary Research for Advanced Materials, Tohoku University
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Muto Toshinosuke
Institute Of Science And Technology Tokyo Imperial University
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WATANABE Mitsukuni
Institute of Science and Technology, University, of Tokyo
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Watanabe Mitsukuni
Institute Of Science And Technology University Of Tokyo
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MUTO Toshinosuke
Institute of Science and Technology, University, of Tokyo
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Muto T.
Institute of Science and Technology, University, of Tokyo
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