A transmission line model for metallic carbon nanotube interconnects

## Abstract In this paper, high‐frequency transmission behavior of metallic single‐walled carbon nanotube (SWCNT) interconnects is investigated. The SWCNT is assumed to be lying over a doped Si substrate, in a transmission line configuration. A hybrid approach, combining quantum theory with classic

## Abstract A full‐wave‐based modal analysis is used for simulating a multiconductor coplanar waveguide (CPW) over a selectively etched lossy silicon substrate. Propagating modes, which are similar to the classic ‘common’ and ‘differential’ modes, are extracted, and circuit theory energy relationsh

## Abstract A novel approach for modeling the discontinuities of transmission lines such as conductors with bends and varying size is proposed. The effect from the discontinuities is incorporated in the per‐unit‐length parameters of nonuniform transmission‐line equations. For canonical problems, ou

## Abstract A novel transmission‐line model of high‐speed IC interconnects is presented based on the linear multistep integral method (LMIM), which has the same form as the RLC circuit equation. Using this method, one can expediently analyze the time response of interconnection networks by the orde