Magnetic field induced quantum phase transition of the S= 1 2 antiferromagnet K2 NaCrO8

S. Nellutla, M. Pati, Y. J. Jo, H. D. Zhou, B. H. Moon, D. M. Pajerowski, Y. Yoshida, J. A. Janik, L. Balicas, Y. Lee, M. W. Meisel, Y. Takano, C. R. Wiebe, N. S. Dalal

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Abstract

The magnetic properties of alkali-metal peroxychromate K2 NaCrO8 are governed by the S=1/2 pentavalent chromium cation, Cr 5+. Specific heat, magnetocalorimetry, ac magnetic susceptibility, torque magnetometry, and inelastic neutron-scattering data have been acquired over a wide range of temperature, down to 60 mK, and magnetic field, up to 18 T. The magnetic interactions are quasi-two-dimensional prior to long-range ordering, where TN=1.66-K in H=0. In the T→0 limit, the magnetic field tuned antiferromagnetic to spin-polarized phase transition suggests a critical field μo Hc =7.270-T and a critical exponent α=0.481±0.004. The neutron data indicate the magnetic interactions may extend over intraplanar nearest-neighbor and interplanar next-nearest-neighbor spins.

Original languageEnglish
Article number064431
JournalPhysical Review B - Condensed Matter and Materials Physics
Volume81
Issue number6
DOIs
StatePublished - 24 Feb 2010

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