N-channel double-gate metal-oxide-semiconductor field-effect transistor (MOSFET) FinFETs with gate and fin dimensions as small as 30 nm have been fabricated using a new, simplified process. Short channel effects are effectively suppressed when the Si fin width is less than two-thirds of the gate length. Drive current for typical devices is found to be above 500 muA/mum (or 1mA/mum, depending on the definition of the width of the double-gate device) for V-g - V-t = V-d = 1 V. The electrical gate oxide thickness in these devices is 21A, determined from the first FinFET capacitance-versus-voltage characteristics obtained to date. These results indicate that the FinFET is a promising structure for the future manufacturing of integrated circuits with sub-60-nm feature size, and that double-gate MOSFETs can meet international technology roadmap for semiconductors performance specifications without aggressive scaling of the gate-oxide thickness.