Magnetic Field and Pressure Phase Diagrams of Uranium Heavy-Fermion Compound U2Zn17

Abstract

We have performed magnetization measurements at high magnetic fields of up to 53 T on single crystals of a uranium heavy-fermion compound U2Zn17 grown by the Bridgman method. In the antiferromagnetic state below the N\'eel temperature T N = 9.7 K, a metamagnetic transition is found at Hc 32 T for the field along the [1120] direction (a-axis). The magnetic phase diagram for the field along the [1120] direction is given. The magnetization curve shows a nonlinear increase at Hm 35 T in the paramagnetic state above T N up to a characteristic temperature T max where the magnetic susceptibility or electrical resistivity shows a maximum value. This metamagnetic behavior of the magnetization at Hm is discussed in comparison with the metamagnetic magnetism of the heavy-fermion superconductors UPt3, URu2Si2, and UPd2Al3. We have also carried out high-pressure resistivity measurement on U2Zn17 using a diamond anvil cell up to 8.7 GPa. Noble gas argon was used as a pressure-transmitting medium to ensure a good hydrostatic environment. The N\'eel temperature T N is almost pressure-independent up to 4.7 GPa and starts to increase in the higher-pressure region. The pressure dependences of the coefficient of the T2 term in the electrical resistivity A, the antiferromagnetic gap , and the characteristic temperature T max are discussed. It is found that the effect of pressure on the electronic states in U2Zn17 is weak compared with those in the other heavy fermion compounds.