Nuclear relaxation in CsFeCl3.2H2O and RbFeCl 3.2H2O: Influence of diffusive solitons

A. M.C. Tinus; C. J.M. Denissen; H. Nishihara; W. J.M. De Jonge

doi:10.1088/0022-3719/15/23/013

Nuclear relaxation in CsFeCl₃.2H₂O and RbFeCl ₃.2H₂O: Influence of diffusive solitons

A. M.C. Tinus, C. J.M. Denissen, H. Nishihara, W. J.M. De Jonge

Applied Physics and Science Education

Research output: Contribution to journal › Comment/Letter to the editor › Academic › peer-review

9 Citations (Scopus)

Abstract

The nuclear spin-lattice relaxation times of ¹H and ¹³³Cs in CsFeCl₃.2H₂O and RbFeCl ₃.2H₂O are measured in the paramagnetic region. Both relaxation rates have an activation-type temperature dependence in a wide temperature range together with a maximum at a temperature well above the zero-field 3d-ordering temperature. This behaviour can be satisfactorily described with a diffusive soliton model.

Original language	English
Article number	013
Pages (from-to)	L791-L796
Number of pages	6
Journal	Journal of Physics C: Solid State Physics
Volume	15
Issue number	23
DOIs	https://doi.org/10.1088/0022-3719/15/23/013
Publication status	Published - 1 Dec 1982

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abstract = "The nuclear spin-lattice relaxation times of 1H and 133Cs in CsFeCl3.2H2O and RbFeCl 3.2H2O are measured in the paramagnetic region. Both relaxation rates have an activation-type temperature dependence in a wide temperature range together with a maximum at a temperature well above the zero-field 3d-ordering temperature. This behaviour can be satisfactorily described with a diffusive soliton model.",

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AU - Tinus, A. M.C.

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AU - Nishihara, H.

AU - De Jonge, W. J.M.

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N2 - The nuclear spin-lattice relaxation times of 1H and 133Cs in CsFeCl3.2H2O and RbFeCl 3.2H2O are measured in the paramagnetic region. Both relaxation rates have an activation-type temperature dependence in a wide temperature range together with a maximum at a temperature well above the zero-field 3d-ordering temperature. This behaviour can be satisfactorily described with a diffusive soliton model.

AB - The nuclear spin-lattice relaxation times of 1H and 133Cs in CsFeCl3.2H2O and RbFeCl 3.2H2O are measured in the paramagnetic region. Both relaxation rates have an activation-type temperature dependence in a wide temperature range together with a maximum at a temperature well above the zero-field 3d-ordering temperature. This behaviour can be satisfactorily described with a diffusive soliton model.

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Nuclear relaxation in CsFeCl₃.2H₂O and RbFeCl ₃.2H₂O: Influence of diffusive solitons

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