Singlet state formation and its impact on the magnetic structure in the tetramer system SeCuO3

We present an experimental investigation of the magnetic structure in a tetramer system SeCuO3 using neutron powder-diffraction and nuclear resonance techniques. We establish a commensurate antiferromagnetic ordering with a propagation vector k = (0, 0, 1). The order parameter follows a critical behavior near T-N = 8 K with a critical exponent beta = 0.32 in agreement with a three-dimensional universality class. Evidence is presented that a singlet state starts to form on tetramers at temperatures as high as 200 K, and its signature is preserved within the ordered state through a strong renormalization of the ordered magnetic moment on two nonequivalent copper sites m(Cu1) approximate to 0.35(mu B) and m(Cu2) < 0.8(mu B) at 1.5 K.

Singlet state formation and its impact on the magnetic structure in the tetramer system SeCuO3

Magnetic structure and magnetoelectric properties of the spin-flop phase in LiFePO4

Magnetic structure of the two-dimensional XY antiferromagnet Sr2CoSi2O7 studied using single-crystal neutron diffraction

Canted antiferromagnetic phases in the candidate layered Weyl material EuMnSb2

Canted antiferromagnetic phases in the candidate layered Weyl material EuMnSb2

Magnetic structure and magnetoelectric properties of the spin-flop phase in LiFePO4

Magnetic structure of the two-dimensional XY antiferromagnet Sr2CoSi2O7 studied using single-crystal neutron diffraction