Theory of superconducting and nonsuperconducting stripe phases in the hole-doped superconductor Ca2-xNaxCuO2Cl2 (x=1/8,1/16)

Abstract

Based on the newly developed real-space spin-parallel pairing and superconducting theory, we explore a simple explanation for the observed checkerboard patterns in hole-doped Ca2-xNaxCuO2Cl2 cuprate superconductor. At a hole concentration x=1/8=0.125, the analytical results show that there exists a phase competition between non-superconducting 4a*4b (a=b) checkerboard phase and 8a*2c superconducting vortex phase, where a, b and c are the lattice constants of the superconductor. At a lower hole concentration x=1/16=0.0625, it is revealed that the metastable 42a*42a checkerboard phase can reorganize itself into a more stable octahedron phase with the 4a*4a checkerboard symmetry.