This webpage introduces and shows the 3D tunneling of electrons from a Scanning Tunneling microscope to a carbon nanotube. A jellium potential model is used for the STM tip and nanotube. The spread of the wavepacket along the tube along with the tunneling can be observed.
<a href="https://www.compadre.org/quantum/items/detail.cfm?ID=802">Márk, Géza. 3D calculation of wave packet tunneling through a supported carbon nanotube. 2001.</a>
G. Márk, 3D calculation of wave packet tunneling through a supported carbon nanotube (2001), <http://www.nanotechnology.hu/online/kirchberg2001/index.html>.
Márk, G. (2001). 3D calculation of wave packet tunneling through a supported carbon nanotube. Retrieved December 6, 2024, from http://www.nanotechnology.hu/online/kirchberg2001/index.html
Márk, Géza. 3D calculation of wave packet tunneling through a supported carbon nanotube. 2001. http://www.nanotechnology.hu/online/kirchberg2001/index.html (accessed 6 December 2024).
Márk, Géza. 3D calculation of wave packet tunneling through a supported carbon nanotube. 2001. 6 Dec. 2024 <http://www.nanotechnology.hu/online/kirchberg2001/index.html>.
@misc{
Author = "Géza Márk",
Title = {3D calculation of wave packet tunneling through a supported carbon nanotube},
Volume = {2024},
Number = {6 December 2024},
Year = {2001}
}
%A Géza Márk %T 3D calculation of wave packet tunneling through a supported carbon nanotube %D 2001 %U http://www.nanotechnology.hu/online/kirchberg2001/index.html %O text/html
%0 Electronic Source %A Márk, Géza %D 2001 %T 3D calculation of wave packet tunneling through a supported carbon nanotube %V 2024 %N 6 December 2024 %9 text/html %U http://www.nanotechnology.hu/online/kirchberg2001/index.html
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