Weak-coupling calculation of the gap structure of doped n-leg Hubbard ladders
arXiv:cond-mat/9609136
Abstract
In weak coupling, the spin gap in doped, even, n-leg periodic Hubbard ladders reflects the energy to break a pair into separate quasiparticles. Here we investigate the structure of the gap within a spin-fluctuation exchange approximation. We also calculate the amplitude for removing a singlet pair from two lattice sites separated by a distance (l_x,l_y), which describes the internal structure of a pair.
9 pages and 11 ps figures, uses revtex