Extremely anisotropic suppression of huge enhancement of electrical resistivity by magnetic field in α-R 2S3 (R = Sm, Dy)

The electrical resistivity ρ and magnetization M of α-R 2S3 (R = Sm, Dy) single crystals have been measured in various magnetic fields lying in the ac-plane of an orthorhombic crystal structure. The measurements have been carried out by rotating the single crystals around the b-axis (being set paral...

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Bibliographic Details
Main Authors: Ebisu, S, Era, T, Guo, Q, Miyazaki, M
Format: Conference Proceeding
Language:English
Subjects:
Crystal structure
Electrical resistivity
Horizontal orientation
Magnetic fields
Magnetic transitions
Magnetism
Magnetization
Physics
Single crystals
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Summary:The electrical resistivity ρ and magnetization M of α-R 2S3 (R = Sm, Dy) single crystals have been measured in various magnetic fields lying in the ac-plane of an orthorhombic crystal structure. The measurements have been carried out by rotating the single crystals around the b-axis (being set parallel to a horizontal direction), corresponding to the longitudinal direction of needle-shaped single crystals, in vertical magnetic fields. The electrical resistivity under no magnetic field shows huge enhancement in a narrow temperature range around the successive magnetic transition temperatures, as reported previously. Such enhancement is suppressed rapidly by applying a magnetic field, which has been clearly seen as diminishing of the ρ(T) peak. The magnetic field along the easy magnetization axis; H easy, moves the ρ(T) peak toward higher temperature with diminishing it, while the magnetic field along the hard magnetization axis; H hard, moves it to lower temperature. The suppression effect is extremely anisotropic for the orientation of the magnetic field lying in the ac-plane. It has been concluded that H easy suppresses the ρ enhancement most strongly. The suppression effect under H easy is more than 200 times larger at least in some cases than that under H hard.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/969/1/012124