Investigation of novel cuprates of the TlCa1-xLnxSr2Cu2O7- δ (Ln=rare earth) series showing electron- or hole-superconductivity depending on the composition

Vijayaraghavan, R; Ganguli, A K; Vasanthacharya, N Y; Rajumon, M K; Kulkarni, G U; Sankar, G; Sarma, D D; Sood, A K; Narayana, Chandrabhas; Rao, C N R

Investigation of novel cuprates of the TlCa1-xLnxSr2Cu2O7- δ (Ln=rare earth) series showing electron- or hole-superconductivity depending on the composition

Vijayaraghavan, R; Ganguli, A K; Vasanthacharya, N Y; Rajumon, M K; Kulkarni, G U; Sankar, G; Sarma, D D; Sood, A K; Narayana, Chandrabhas; Rao, C N R

URI: https://libjncir.jncasr.ac.in/xmlui/10572/785

Date: 1989

Abstract:

Superconductivity in cuprates of the general formula TlCa1-xLnxSr2Cu2O7+ delta has been investigated as a function of Ln and x. Compositions with 0.25<or=x<or=0.8 are superconducting for all Ln with Tc in the range 60-90 K (except when Ln=Yb where x=1 is also superconducting); the value of the Tc varies with x as well as Ln. When x approximately=0.25, electrons are the majority charge carriers, while holes are the majority carrier when x >0.25. Thus, these cuprates exhibit a composition-dependent electron- or hole-superconductivity. In the normal state, most of the members of the series traverse compositionally determined metal-insulator transitions. High-energy spectroscopies show the presence of Cu in the 1+ and 2+ states. The Raman frequency around 525 cm-1 characteristic of the Tl-O2-Cu linkage is sensitive to both Ln and x, indicating a possible involvement in the mechanism of superconductivity.