Novel quantum phase of the chromium spinel oxide HgCr 2O 4 in high magnetic fields
Abstract
In this study, we have performed the magnetocaloric effect and the specific heat measurements of chromium spinel oxide HgCr2O4, wherein the magnetic Cr3+ ions form a highly frustrated pyrochlore lattice with significant spin-lattice coupling. In addition to the known magnetic-field-induced phases, our thermodynamic measurements detect a novel quantum phase just before the saturation of the magnetization, which has not been expected from the classical theories of the pyrochlore lattice antiferromagnet with spin-lattice coupling. Based on recent theoretical model calculation, we discuss the possibility of a spin nematic state appearing for this quantum phase.
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