Tesi etd-09062006-102321 |
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Tipo di tesi
Tesi di laurea specialistica
Autore
Pugnetti, Stefano
URN
etd-09062006-102321
Titolo
DC Josephson Effect through Metallic Carbon Nanotubes
Dipartimento
SCIENZE MATEMATICHE, FISICHE E NATURALI
Corso di studi
SCIENZE FISICHE
Relatori
Relatore Fazio, Rosario
Parole chiave
- liquidi di luttinger
- bosonizzazione
- nanotubi
- effetto josephson
Data inizio appello
26/09/2006
Consultabilità
Non consultabile
Data di rilascio
26/09/2046
Riassunto
In this work we wish to study from a theoretical point of view the transport
properties of metallic carbon nanotubes coupled to superconducting leads. In
particular we wish to study the Josephson effect that consists of a supercurrent
flowing among two superconductors through an insulating barrier (M. Tinkham ,
Introduction to Superconductivity , 1996) due to coherent propagation of
Cooper pairs. The current that can flow has a sine dependence on the phase
difference of the two superconductors and the maximum current (or critical current)
is found to decay exponentially with the separation of the superconducting
systems. If the coupling among the two superconductors is realized with a onedimensional
conductor (the contacts with the superconductors are treated as
tunnel barriers) the critical current is found to decay as a power law of the
separation at zero temperature (R. Fazio et Al. , Physical Review B 53 , 6653
(1996)), making this kind of couplings of potential technological interest.
Since electron–electron interactions play a prominent role in this effect, it is
interesting to study what happens when using carbon nanotubes as linking conductors;
this implementation has been studied experimentally in a recent work
(P. Jarillo-Herrero et Al , Nature 439 , 953 (2006)).
properties of metallic carbon nanotubes coupled to superconducting leads. In
particular we wish to study the Josephson effect that consists of a supercurrent
flowing among two superconductors through an insulating barrier (M. Tinkham ,
Introduction to Superconductivity , 1996) due to coherent propagation of
Cooper pairs. The current that can flow has a sine dependence on the phase
difference of the two superconductors and the maximum current (or critical current)
is found to decay exponentially with the separation of the superconducting
systems. If the coupling among the two superconductors is realized with a onedimensional
conductor (the contacts with the superconductors are treated as
tunnel barriers) the critical current is found to decay as a power law of the
separation at zero temperature (R. Fazio et Al. , Physical Review B 53 , 6653
(1996)), making this kind of couplings of potential technological interest.
Since electron–electron interactions play a prominent role in this effect, it is
interesting to study what happens when using carbon nanotubes as linking conductors;
this implementation has been studied experimentally in a recent work
(P. Jarillo-Herrero et Al , Nature 439 , 953 (2006)).
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