On the Origin of the Anisotropy Energy of CuCl_2・2H_2O
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概要
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The anisotropy energy of CuCl_2・2H_2O having an orthorhombic symmetry can be expreesed by K_1β^2+K_2γ^2, where β and γ are the direction cosines of the magnetic moment with respect to the b-axis and the c-axis. The calculated value of K_2 arising from the magnetic dipole interaction nearly accords with the experimental value, but that of K_1 becomes much smaller. Since the magnitude of the spin of CuCl_2・2H_2O is equal to 1 / 2, the crystalline field can not produce any anisotropy energy, so that we must consider that the other part of the anisotropy energy than that from the magnetic dipole interaction arises from the anisotropic exchange interaction which has originally been proposed by Van Vleck. Therefore, we derive the anisotropic exchange interaction on the basis of the perturbation method and estimate the anisotropy constants K_1 and K_2 due to this interaction by use of the experimental g-values which are relating to the energy differences between the ground state and the excited states of Cu^<2+>ions. Thus it is shown that the sum of theoretical anisotropy constants due to both origins gives the values of the same order with that of the experimental values.
- 理論物理学刊行会の論文
著者
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Yosida Kei
Department Of Physics Faculty Of Science And Technology Science University Of Tokyo
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Moriya Toru
Deparment Of Physics Wasea University
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