We investigate numerically the ground state of the 1D extended Hubbard mode
l, with on-site interaction U and nearest-neighbor interaction V. We focus
V much greater than U, U similar to t at quarter filling, where previous st
udies suggested the possibility of dominant superconducting pairing fluctua
tions before phase separation at a critical value V V-PS. We calculate V-PS
and the Luttinger Liquid correlation exponent K-rho using quantum Monte Ca
rlo and exact diagonalization methods. Our results for U = t and n = 1/2 sh
ow no superconductivity before phase separation.