Theoretical Prediction of optimal Tc for Nickelate La3-xSmxNi2O7-δ
Abstract
Recently, the nickel-based superconductor Tc record was updated to 96\ K in bilayer La3-xSmxNi2O7-δ (LSNO) under pressure, raising a critical question: Can its Tc exceed the 164 K benchmark of copper-based superconductors? We find that both monoclinic and tetragonal LSNO have an octahedral quantum well structure (determining Tc) nearly identical to YBa2Cu3O7-δ (YBCO). Based on the formula Tc = /2 (Planck ground-state quantum well oscillator hypothesis, = lattice parameter-determined quantum well depth), we predict Sm-doped nickelate Tc values of 93.4\ K (monoclinic) and 97.1\ K (tetragonal), in excellent agreement with experimental data (92\ K and 96\ K). Notably, despite distinct composition and symmetry (LSNO: P21/m; YBCO: Pmmm), their (3.6629\ vs 3.6720\ ) and Tc (92\ K vs 93\ K) are nearly identical. This validates the proposed superconducting formula and unifies copper-based and nickel-based superconductors at the angstrom-scale octahedral quantum well. Further predictions indicate the maximum achievable Tc for lanthanide-based nickelates (regardless of layer number) is 100\ K.
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