Abstract
The nature and symmetry of the superconducting gap function in the noncentrosymmetric superconductor (NCS) Li2Pt3B, even many years after its discovery, appears to be full of contradictions. In this letter based on the existing band structure calculations we find that owing to the considerable nesting near the Fermi surface and the enhanced d-character of the relevant bands that cross the Fermi level,the system gets somewhat strongly correlated. Considering the effect of the onsite Coulomb repulsion on the pairing potential perturbatively, we extract possible superconducting transition. The strong normal spin fluctuation gives rise to a singlet dominant gap function with accompanying sign change. Thus our theory predicts a $s_\pm$ wave gap function with line nodes as the most promising candidate in the superconducting state.
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