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AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions

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Zeitschriftentitel: Journal of Applied Physics
Personen und Körperschaften: Willet, R. D., Barberis, D., Waldner, F.
In: Journal of Applied Physics, 53, 1982, 3, S. 2677-2679
Format: E-Article
Sprache: Englisch
veröffentlicht:
AIP Publishing
Schlagwörter:
General Physics and Astronomy
author_facet Willet, R. D.
Barberis, D.
Waldner, F.
Willet, R. D.
Barberis, D.
Waldner, F.
author Willet, R. D.
Barberis, D.
Waldner, F.
spellingShingle Willet, R. D.
Barberis, D.
Waldner, F.
Journal of Applied Physics
AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
General Physics and Astronomy
author_sort willet, r. d.
spelling Willet, R. D. Barberis, D. Waldner, F. 0021-8979 1089-7550 AIP Publishing General Physics and Astronomy http://dx.doi.org/10.1063/1.330891 <jats:p>CuCl2⋅DMSO is a linear chain system with strong ferromagnetic intrachain coupling (J/k = 45 K) and significant interchain coupling (J′/k = −1.6 K). It orders three-dimensionally near 5 K and undergoes a spin-flop transition at low fields (3–4 kOe). The AFMR modes have been observed in the temperature range 1.5–5.5 K. In addition, the spin-flop transition has also been observed due to the cut-off of the AFMR signal at the transition field. The easy and hard axes lie in the ac plane of the monoclinic crystal, with the easy axis making an angle of 55° with the chain direction. Interpretation of the data indicates that the system has nearly XY anisotropy, with a rhombic component approximately 5% of the XY anisotropy. It is observed that the spin-flop field increases as the temperature is lowered, from 3200 G at 5.4 K to 4100 kG at 2 K.</jats:p> AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions Journal of Applied Physics
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publisher AIP Publishing
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series Journal of Applied Physics
source_id 49
title AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_unstemmed AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_full AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_fullStr AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_full_unstemmed AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_short AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_sort afmr study of cucl2⋅dmso: a pseudo-one-dimensional system with ferromagnetic intrachain interactions
topic General Physics and Astronomy
url http://dx.doi.org/10.1063/1.330891
publishDate 1982
physical 2677-2679
description <jats:p>CuCl2⋅DMSO is a linear chain system with strong ferromagnetic intrachain coupling (J/k = 45 K) and significant interchain coupling (J′/k = −1.6 K). It orders three-dimensionally near 5 K and undergoes a spin-flop transition at low fields (3–4 kOe). The AFMR modes have been observed in the temperature range 1.5–5.5 K. In addition, the spin-flop transition has also been observed due to the cut-off of the AFMR signal at the transition field. The easy and hard axes lie in the ac plane of the monoclinic crystal, with the easy axis making an angle of 55° with the chain direction. Interpretation of the data indicates that the system has nearly XY anisotropy, with a rhombic component approximately 5% of the XY anisotropy. It is observed that the spin-flop field increases as the temperature is lowered, from 3200 G at 5.4 K to 4100 kG at 2 K.</jats:p>
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author Willet, R. D., Barberis, D., Waldner, F.
author_facet Willet, R. D., Barberis, D., Waldner, F., Willet, R. D., Barberis, D., Waldner, F.
author_sort willet, r. d.
container_issue 3
container_start_page 2677
container_title Journal of Applied Physics
container_volume 53
description <jats:p>CuCl2⋅DMSO is a linear chain system with strong ferromagnetic intrachain coupling (J/k = 45 K) and significant interchain coupling (J′/k = −1.6 K). It orders three-dimensionally near 5 K and undergoes a spin-flop transition at low fields (3–4 kOe). The AFMR modes have been observed in the temperature range 1.5–5.5 K. In addition, the spin-flop transition has also been observed due to the cut-off of the AFMR signal at the transition field. The easy and hard axes lie in the ac plane of the monoclinic crystal, with the easy axis making an angle of 55° with the chain direction. Interpretation of the data indicates that the system has nearly XY anisotropy, with a rhombic component approximately 5% of the XY anisotropy. It is observed that the spin-flop field increases as the temperature is lowered, from 3200 G at 5.4 K to 4100 kG at 2 K.</jats:p>
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imprint AIP Publishing, 1982
imprint_str_mv AIP Publishing, 1982
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physical 2677-2679
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publisher AIP Publishing
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series Journal of Applied Physics
source_id 49
spelling Willet, R. D. Barberis, D. Waldner, F. 0021-8979 1089-7550 AIP Publishing General Physics and Astronomy http://dx.doi.org/10.1063/1.330891 <jats:p>CuCl2⋅DMSO is a linear chain system with strong ferromagnetic intrachain coupling (J/k = 45 K) and significant interchain coupling (J′/k = −1.6 K). It orders three-dimensionally near 5 K and undergoes a spin-flop transition at low fields (3–4 kOe). The AFMR modes have been observed in the temperature range 1.5–5.5 K. In addition, the spin-flop transition has also been observed due to the cut-off of the AFMR signal at the transition field. The easy and hard axes lie in the ac plane of the monoclinic crystal, with the easy axis making an angle of 55° with the chain direction. Interpretation of the data indicates that the system has nearly XY anisotropy, with a rhombic component approximately 5% of the XY anisotropy. It is observed that the spin-flop field increases as the temperature is lowered, from 3200 G at 5.4 K to 4100 kG at 2 K.</jats:p> AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions Journal of Applied Physics
spellingShingle Willet, R. D., Barberis, D., Waldner, F., Journal of Applied Physics, AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions, General Physics and Astronomy
title AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_full AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_fullStr AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_full_unstemmed AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_short AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_sort afmr study of cucl2⋅dmso: a pseudo-one-dimensional system with ferromagnetic intrachain interactions
title_unstemmed AFMR study of CuCl2⋅DMSO: A pseudo-one-dimensional system with ferromagnetic intrachain interactions
topic General Physics and Astronomy
url http://dx.doi.org/10.1063/1.330891