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Single crystal EPR studies of Cu(II) doped in cadmium sodium sulphate hexahydrate: a case of low hyperfine coupling constant

✍ Scribed by C. Shiyamala; R. Venkatesan; P. Sambasiva Rao

Book ID
104166358
Publisher
Elsevier Science
Year
2003
Tongue
English
Weight
138 KB
Volume
128
Category
Article
ISSN
0038-1098

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✦ Synopsis

Single crystal electron paramagnetic resonance studies of Cu(II) doped cadmium sodium sulphate hexahydrate are carried out at room temperature. Angular variation of copper hyperfine lines in the three orthogonal axes shows the presence of a single site in a substitutional position. The spin Hamiltonian parameters calculated from the spectra are: g 11 ¼ 2:070; g 22 ¼ 2:191; g 33 ¼ 2:366; A 11 ¼ 5:96 mT; A 22 ¼ 1:65 mT and A 33 ¼ 8:62 mT: The low value of A 33 has been explained by considering considerable admixture of d 2

x 2 y 2 ground state with d 2 z excited state. The admixture coefficients of ground state wave function are: a ¼ 0:281; b ¼ 0:957; c ¼ 0:057; d ¼ 0:032; e ¼ 20:032; where a and b correspond to admixture coefficients for d 2 z and d 2

x 2 y 2 respectively. EPR powder spectrum at room temperature and 77 K gives identical spin Hamiltonian parameters, which matched fairly well with the single crystal data. Parameters k ¼ 0

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