Nuclear spin-lattice relaxation of 60Co in the glassy alloy Co3.1Fe80.5B16.4 studied by low-temperature nuclear orientation

Journal of Physics F: Metal Physics Pub Date : 1988-10-01 DOI:10.1088/0305-4608/18/10/017
M. Trhlík, B. Sedlak, J. Englich, S. Kapusta, M. Rotter, T. Lešner, P. Čížek, M. Finger, É. Kisdi-Koszó, A. Lovas
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引用次数: 2

Abstract

The hyperfine field and nuclear spin-lattice relaxation of 60Co in the glassy alloy Co3.1Fe80.5B16.4 have been studied by low-temperature nuclear orientation technique. The thermal cycling method has been used for relaxation measurement. In comparison with the crystalline Fe matrix, the nuclear spin-lattice relaxation of 60Co in the glassy alloy has been found to be five times faster and shows no dependence on external magnetic field in the range 0.1-1.1 T. Weger's mechanism is proposed to play a crucial role in the nuclear spin-lattice relaxation in this material.
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低温核取向研究了Co3.1Fe80.5B16.4玻璃合金中60Co的核自旋-晶格弛豫
采用低温核取向技术研究了60Co在Co3.1Fe80.5B16.4玻璃合金中的超细场和核自旋晶格弛豫。热循环法用于弛豫测量。与结晶铁基体相比,60Co在玻璃合金中的核自旋-晶格弛豫速度快5倍,并且在0.1-1.1 t范围内不依赖于外磁场,Weger机制在该材料的核自旋-晶格弛豫中起关键作用。
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Journal of Physics F: Metal Physics
Journal of Physics F: Metal Physics
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