Title :
The possibilities of critical temperature (Tc) increasing in nanotubes with the properties of quantum wires
Author :
Khusnutdinov, Radmir F. ; Berdinsky, Alexander S.
Author_Institution :
Novosibirsk State Tech. Univ., Russia
Abstract :
The theoretical possibility of superconducting critical temperature-Tc increasing by means of Fermi-energy level (FEL) variation in quantum wires (QWR) is considered. The result my be realized by coincidence of FEL with one of the quantum energy level (QEL) in QWR, which, in turn, possible to get in carbon nanotubes. One can get the variation of FEL by way of electrical field changing in nanotube and geometry size variation of nanotube. There are some technological ways of FEL and QEL coincidence are discussed
Keywords :
Fermi level; carbon nanotubes; quantum wires; superconducting transition temperature; C; Fermi energy level; carbon nanotube; electric field; quantum wire; superconducting critical temperature; Charge carrier processes; Charge carriers; Effective mass; Electrons; Energy states; H infinity control; Nanotubes; Solids; Superconductivity; Temperature;
Conference_Titel :
Electron Devices and Materials, 2001. Proceedings. 2nd Annual Siberian Russian Student Workshop on
Conference_Location :
Erlagol, Altai
Print_ISBN :
5-7782-0347-0
DOI :
10.1109/SREDM.2001.939166
