In this paper, different models of parallel Carbon nanotube Bundles are carried out and simulated. In the first place, a model of three parallel SWCNT (singe walled carbon nanotube) Bundles and DWCNT (double walled...In this paper, different models of parallel Carbon nanotube Bundles are carried out and simulated. In the first place, a model of three parallel SWCNT (singe walled carbon nanotube) Bundles and DWCNT (double walled carbon nanotube) Bundles was established and simulated. It has been noticed that the variation on the number of Carbon nanotubes in the bundle has an impact on the crosstalk amplitude. In the second place, a model of three parallel MWCNT (multi walled carbon nanotube) Bundles was established and simulated and the crosstalk effect has been noticed and compared with SWCNT/DWCNT Bundles. Finally a model of mixed Bundles (Single-Double-Single) and (Double-Single-Double) was carried out and simulated. All simulations were established using Pspice.展开更多
文摘In this paper, different models of parallel Carbon nanotube Bundles are carried out and simulated. In the first place, a model of three parallel SWCNT (singe walled carbon nanotube) Bundles and DWCNT (double walled carbon nanotube) Bundles was established and simulated. It has been noticed that the variation on the number of Carbon nanotubes in the bundle has an impact on the crosstalk amplitude. In the second place, a model of three parallel MWCNT (multi walled carbon nanotube) Bundles was established and simulated and the crosstalk effect has been noticed and compared with SWCNT/DWCNT Bundles. Finally a model of mixed Bundles (Single-Double-Single) and (Double-Single-Double) was carried out and simulated. All simulations were established using Pspice.
