LaSrVO4: A candidate for the spin-orbital liquid state

Z. L. Dun, V. O. Garlea, C. Yu, Y. Ren, E. S. Choi, H. M. Zhang, S. Dong, H. D. Zhou

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Abstract

A layered perovskite LaSrVO4 was studied by neutron diffraction, pair distribution function measurement using synchrotron x-ray, susceptibility, and specific heat measurements, and first-principles calculation. The results show (i) a weak structural distortion around 100 K with the existence of orbital fluctuations both above and below it; (ii) the absence of the long range magnetic ordering down to 0.35 K but the appearance of a short range magnetic ordering around 11 K with a T2 behavior of the specific heat below it. Meanwhile, the calculation based on the density functional theory predicts a magnetic ordered ground state. All facts indicate a melting of the magnetic ordering due to the orbital fluctuations in LaSrVO4, which makes it a rare candidate for the spin-orbital liquid state related to t2g orbitals.

Original languageEnglish
Article number235131
JournalPhysical Review B - Condensed Matter and Materials Physics
Volume89
Issue number23
DOIs
StatePublished - Jun 26 2014

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