NEUTRON-SCATTERING STUDY OF INCOMMENSURATE MAGNETIC ORDER IN THE HEAVY-FERMION SUPERCONDUCTOR UNI2AL3

Elastic neutron scattering from a single-crystal sample of the heavy-f ermion superconductor UNi2Al3 has revealed the onset of long-range mag netic order below T-N=4.6 K. This order is characterized by an incomme nsurate (IC) ordering wave vector given by (1/2+/-tau, 0, 1/2) with ta u=0.11+/-0.003. The intensity of several magnetic satellite Bragg peak s within the (h,0,l) plane is well described by a model in which the s pins lie within the basal plane and are modulated in amplitude from si te to site. By applying a magnetic field to select from all the possib le domains, we find that the moment is polarized along the a direction , with a maximum amplitude of 0.21+/-0.1 mu(B) per uranium atom. The o rder-parameter exponent beta associated with this transition is 0.34+/ -.03, which is typical of three-dimensional ordering transitions. Meas urements down to similar to 0.3 K show that the magnetic order coexist s with superconductivity below T-C similar to 1.2 K, and that these st ates are coupled as shown by anomalous behavior of the magnetic order parameter around T-C. Measurements were also made in magnetic fields o f up to 8 T applied perpendicular to the (h,0,l) plane, along (-1,1,0) , a near-neighbor direction within the hexagonal basal plane. While th e field does not influence T-N, it does increase the intensity of the magnetic Bragg peaks by a factor of similar to 1.5, as well as increas e the IC part of the ordering wave vector at low temperatures. [S0163- 1829(97)01441-0].