Fermi surface properties and unconventional superconductivity in rare earth, uranium and transuranium compounds

We studied the various kinds of electronic states in the f-electron systems of the cubic RX 3 and AnX 3 compounds and the tetragonal RTX 5 and AnTXs compounds (R: rare earth, An: Th, U, Np, Pu, T: transition metal, X: Al, Ga, In, Si, Ge, Sn) through the de Haas-van Alphen experiment and the energy band calculation. The former compounds are three dimensional in the electronic states, while the latter compounds are quasi-two dimensional. Pressure experiments were also carried out for antiferromagnets Celn 3 and CeRhln 5 to change the electronic state from the antiferromagnetically ordered state to the non-magnetic state, crossing the critical pressure region where the Neel temperature becomes zero. Around this critical pressure region, d-wave superconductivity is induced, and a marked change of the Fermi surface properties from the 4f-localized state to the 4f-itinerant state occurs at this critical pressure, revealing the first-order phase transition.