Nematic ordering in pyrochlore antiferromagnets: high-field phase of chromium spinel oxides

Abstract

Motivated by recent observation of a new high field phase near saturation in chromium spinels ACr2O4 (A= Zn, Cd, Hg), we study the S = 3/2 pyrochlore Heisenberg antiferromagnet with biquadratic interactions. Magnon instability analysis at the saturation field reveals that a very small biquadratic interaction can induce magnon pairing in pyrochlore antiferromagnets, which leads to the emergence of a ferro-quadrupolar phase, or equivalently a spin nematic phase, below the saturation field. We present the magnetic phase diagram in an applied field, studying both S=3/2 and S=1 spin systems. The relevance of our result to chromium spinels is discussed.