Information Technology Reference
In-Depth Information
11.
Berber, S., Kwon, Y.K., Tomanek, D.: Unusually high thermal conductivity of carbon
nanotubes. Phys. Rev. Lett. 84(20), 4613-4616 (2000)
12.
Rossi, D., Cazeaux, J.M., Metra, C., Lombardi, F.: Modeling crosstalk effect in CNT bus
architecture. IEEE Trans. Nanotechnol. 6(23), 133-145 (2007)
13.
Li, H., Yin, W.Y., Banerjee, K., Mao, J.F.: Circuit Modeling and performance Analysis of
Multi-Walled Carbon Nanaotube Interconects. IEEE Trans. Electron Devices 55(6),
1328-1337 (2008)
14.
Burke, P.J.: Luttinger Liquid Theory as a Model of the Gigahertz Electrical Properties of
Carbon Nanotubes. IEEE Trans. Nanotechnol. 1(3), 129-144 (2002)
15.
Pu, S.N., Yin, W.Y., Mao, J.F., Liu, Q.H.: Crosstalk Prediction of Single- and Double-
Walled Carbon-Nanotube (SWCNT/ DWCNT) Bundle Interconnects. IEEE Trans.
Electron Devices 56(4), 560-568 (2009)
16.
Majumder, M.K., Pandya, N.D., Kaushik, B.K., Manhas, S.K.: Analysis of MWCNT and
Bundled SWCNT Interconnects: Impact on Crosstalk and Area. IEEE Electron Devices
Letts. 33(8), 1180-1182 (2012)
