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Paper detail

Physical properties and magnetic structure of the intermetallic CeCuBi2 compound

In this work, we combined magnetization, pressure dependent electrical resistivity, heat-capacity, 63Cu Nuclear Magnetic Resonance (NMR) and X-ray resonant magnetic scattering experiments to investigate the physical properties of the intermetallic CeCuBi2 compound. Our single crystals show an antiferromagnetic ordering at TN ~ 16 K and the magnetic properties indicate that this compound is an Ising antiferromagnet. In particular, the low temperature magnetization data revealed a spin-flop transition at T = 5 K when magnetic fields about 5.5 T are applied along the c-axis. Moreover, the X-ray magnetic diffraction data below TN revealed a commensurate antiferromagnetic structure with propagation wavevector (0 0 1/2) with the Ce^3+ moments oriented along the c-axis. Furthermore, our heat capacity, pressure dependent resistivity and temperature dependent 63Cu NMR data suggest that CeCuBi2 exhibits a weak heavy fermion behavior with strongly localized Ce^3+ 4f electrons. We thus discuss a scenario taking into account the anisotropic magnetic interaction between the Ce^3+ ions along with the tetragonal crystalline electric field effects in CeCuBi2.

preprint2015arXivOpen access
C. AdrianoP. F. S. RosaC. B. R. JesusJ. R. L. MaderganT. M. GariteziT. GrantZ. FiskD. J. GarciaA. P. ReyesP. L. KuhnsR. R. UrbanoC. GilesP. G. Pagliuso
cond-mat.str-el
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C. AdrianoP. F. S. RosaC. B. R. JesusJ. R. L. MaderganT. M. GariteziT. GrantZ. FiskD. J. GarciaA. P. ReyesP. L. KuhnsR. R. UrbanoC. GilesP. G. Pagliuso

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