Nonlocal nature of the nuclear force and its impact on nuclear structure.

We calculate the triton binding energy with a nonlocal {ital NN} potential that fits the world {ital NN} data below 350 MeV with the almost perfect {chi}{sup 2}/datum of 1.03. The nonlocality is derived from relativistic meson field theory. The result obtained in a 34-channel, charge-dependent Faddeev calculation is 8.00 MeV, which is 0.4 MeV above the predictions by local {ital NN} potentials. The increase in binding energy can be clearly attributed to the off-shell behavior of the nonlocal potential. Our result cuts in half the discrepancy between theory and experiment established from local {ital NN} potentials. Implications for other areas of miscroscopic nuclear structure, in which underbinding is a traditional problem, are discussed. {copyright} {ital 1996 The American Physical Society.}