Hole doping at x ≈ 0.4 in La3-xSrxNi2O7 produces nearly perfect Fermi-surface nesting at Q = (π, π), raising the superconducting eigenvalue to experimentally accessible levels at ambient pressure.
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A new theoretical framework enables the quantum twisting microscope to perform momentum-resolved spectroscopy of superconductivity, extracting pairing magnitude and symmetry from tunneling channels in 2D materials.
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Nearly perfect Fermi surface nesting in hole-doped La$_3$Ni$_2$O$_7$ enables bulk superconductivity without pressure or strain
Hole doping at x ≈ 0.4 in La3-xSrxNi2O7 produces nearly perfect Fermi-surface nesting at Q = (π, π), raising the superconducting eigenvalue to experimentally accessible levels at ambient pressure.
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Momentum-resolved spectroscopy of superconductivity with the quantum twisting microscope
A new theoretical framework enables the quantum twisting microscope to perform momentum-resolved spectroscopy of superconductivity, extracting pairing magnitude and symmetry from tunneling channels in 2D materials.