Magnetic phase diagram and correlation between metamagnetism and superconductivity in Ru0.9Sr2YCu2.1O7.9
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Date
2013-06-01
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Springer
Abstract
The magnetic superconductor Ru0.9Sr2YCu2.1O7.9 (Ru-1212Y) has been investigated using neutron diffraction under variable temperature and magnetic field. With the complementary information from magnetization measurements, we propose a magnetic phase diagram T-H for the Ru-1212 system. Uniaxial antiferromagnetic (AFM) order of 1.2 mu(B)/Ru atoms with moments parallel to the c-axis is found below the magnetic transition temperature at similar to 140 K in the absence of magnetic field. In addition, ferromagnetism (FM) in the ab-plane develops below similar to 120 K, but is suppressed at lower temperature by superconducting correlations. Externally applied magnetic fields cause Ru-moments to realign from the c-axis to the ab-plane, i.e. along the < 1, 1, 0 > direction, and induce ferromagnetism in the plane with similar to 1 mu(B) at 60 kOe. These observations of the weak ferromagnetism suppressed by superconductivity and the field-induced metamagnetic transition between AFM and FM demonstrate not only competing orders of superconductivity and magnetism, but also suggest a certain vortex dynamics contributing to these magnetic transitions. © 2013, Springer.
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Solid state physics, Superconductors, Superconductivity, Neutrons, Neutron diffraction, Magnetism
Citation
Nigam, R., Kennedy, S. J., Pan, A. V., & Dou, S. X. (2013). Magnetic phase diagram and correlation between metamagnetism and superconductivity in Ru0.9Sr2YCu2.1O7.9. European Physical Journal B, 86(6), 280. doi:10.1140/epjb/e2013-40019-2