Statics and dynamics of an incommensurate spin order in a geometrically frustrated antiferromagnet CdCr2O4
Abstract
Using elastic and inelastic neutron scattering we show that a cubic spinel, CdCr2O4, undergoes an elongation along the c-axis (c > a = b) at its spin-Peierls-like phase transition at TN = 7.8 K. The N\'eel phase (T < TN) has an incommesurate spin structure with a characteristic wave vector QM = (0,δ,1) with δ 0.09 and with spins lying on the ac-plane. This is in stark contrast to another well-known Cr-based spinel, ZnCr2O4, that undergoes a c-axis contraction and a commensurate spin order. The magnetic excitations of the incommensurate N\'eel state has a weak anisotropy gap of 0.6 meV and it consists of at least three bands extending up to 5 meV.
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