We derive a new scale length for two-dimensional (2-D) effects in MOSFETs and discuss its significance. This derivation properly takes into account the difference in permittivity between the Si channel and the gate insulator, and thus permits an accurate understanding of the effects of using insufficiently scaled oxide or thicker higher permittivity gate insulators. The theory shows that the utility of higher dielectric constant insulators decreases for /spl epsiv///spl epsiv//sub 0/>-20, and that in no event should the insulator be thicker than the Si depletion depth. The approach is also applied to double-gated FET structures, resulting in a new more general scale length formula for them, too.