Superconductivity in the noncentrosymetric Li2Pd(3-x)AgxB with x=0.0, 0.1 and 0.3

Abstract

We studied the partial substitution of Ag in the noncentrosymetric superconducting compounds Li2Pd3-xAgxB with x=0.0, 0.1 and 0.3. Magnetization, resistivity and specific heat measurements were performed in this system. From electrical measurements we obtained the critical temperature Tc. The upper critical field at zero temperature was determined with Werthamer-Helfand equation, μ0HWHHc2(0), and μ0Hlinearc2(0) and the coherence length, (0). The Value of μ0Hlinearc2(0) and μ0HWHHc2(0) is lower than the calculated paramagnetic Pauli limit suggesting that the spin-triplet pairing is weak in the system. From specific heat measurements we obtained the parameters of the normal state; the Sommerfeld coefficient, γ, the electronic density of states at the Fermi level, N(EF) and the Debye temperature, θD. In the superconducting state the obtained values were; C/γ Tc, the electron phonon coupling, λe-ph, the superconducting energy gap, 20, and the ratio 20 /kBTc. The electronic specific heat is well described by the BCS theory, suggesting that the energy gap is isotropic and in a strong coupling state.