51,99 €
inkl. MwSt.
Versandkostenfrei*
Versandfertig in 6-10 Tagen
  • Broschiertes Buch

For the studies of coexistance of antiferromagnetism , ferromagnetism and superconductivity, Zn and Ni are doped at the CuO2 planar sites in CuTl-based superconductors.We have realized the Co-existence anti-ferromagnetism and superconductivity in oxide superconductors through the doping of Zn at the CuO2 planar sites. We have also established that Ferro-magnetism and superconductivity can also co-exist in oxide high temperature superconductors. This has been established by doping Ni and Fe at the CuO2 planar sites. It has been established through experiments with…mehr

Produktbeschreibung
For the studies of coexistance of antiferromagnetism , ferromagnetism and superconductivity, Zn and Ni are doped at the CuO2 planar sites in CuTl-based superconductors.We have realized the Co-existence anti-ferromagnetism and superconductivity in oxide superconductors through the doping of Zn at the CuO2 planar sites. We have also established that Ferro-magnetism and superconductivity can also co-exist in oxide high temperature superconductors. This has been established by doping Ni and Fe at the CuO2 planar sites. It has been established through experiments with Cu0.5Tl0.5Ba2Can-1-zMzCun-yZnyO2n+4-d (M=Mg, Be; n=3,4; y=0,1,2,3) systems that magnitude of superconductivity increases with enhanced carrier's density. The fluctuation induced conductivity analysis of afore mentioned samples revealed that the coherence length and interlayer coupling J increases with Mg and Be doping.
Autorenporträt
My research interests include low anisotropy high temperature superconductors. I have served ten years as a faculty member at Department of Physics, Quiad-i-Azam University Islamabad, Pakistan. Twenty six M. Phil and four Ph.D have completed their research work with me.