Absence of time-reversal symmetry breaking in association with the order parameter of Cooper pair in high Tc superconductivity
Abstract
As an extension of our previous work on the holon pairing instability in the t-J Hamiltonian [Phys. Rev. B 66, 054427 (2002)], we examine the orbital symmetries of holon pairing order parameters in high Tc superconductivity by examining the energy poles of t-matrix. We find that both s- and d-wave symmetries in holon pair order parameter occur at low lying energy states corresponding to the higher energy poles of t-matrix while only the s-wave symmetry appears at the lowest energy pole and that this results in the d-wave symmetry in the Cooper pair order which is a composite of the holon pair of s-wave symmetry and the spinon pair of d-wave symmetry below Tc. Finally we demonstrate that there exists no time-reversal symmetry breaking in association with the Cooper pair order parameter.
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