Anisotropy of the antiferromagnetic phase diagram of heavy-fermion UPd2Al3

The following issues concerning UPd2A13 are addressed: (i) its anisotropic magnetic phase diagram which can be explained by domain-reorientation effects, (ii) the coexistence between magnetically ordered local 5f moments and Cooper pairs formed by weakly delocalized 5f states and (iii) distinct anom

We present a neutron diffraction study on a polycrystalline sample of the heavy-fermion compound UPd2Ga3. Both the crystallographic and magnetic structure have been determined. Below the antiferromagnetic ordering temperature TN = 13.4 K, uranium moments of 0.50(5)#B orient parallel to the hexagonal

We report on high-field (B < 38 T) magnetoresistance experiments on a single-crystalline sample of the heavy-fermion antiferromagnet UPd2A13 (T N = 14 K) at liquid-helium temperatures. The antiferromagnetic phase boundary, previously detected by magnetization measurements at B c = 18 T for a field i

We report experimental results of the electrical resistivity and the specific heat of UPd2÷xAia+r(nominal) single crystals. An anomaly in the specific heat, which was reported previously, has disappeared in the present measurement, although there still exists an anomaly in the thermal expansion. The