Title :
Numerical simulation of quantum logic gates based on quantum wires
Author :
Bertoni, A. ; Bordone, P. ; Brunetti, R. ; Jacoboni, C. ; Reggiani, S.
Author_Institution :
Dipt. Fisica, Univ. di Modena e Reggio Emilia, Italy
Abstract :
Quantum theory of computation has been rapidly developed in the recent years. Still it seems very difficult to find a quantum system suitable for realization of the fundamental logic gates, technologically feasible and easily integrable into traditional circuitry. We propose a system based on frontier mesoscopic semiconductor technology. The elementary quantum bit (qbit) is defined as the state of an electron running along a couple of quantum wires coupled through a potential barrier with variable height and/or width. In this work we show that a proper design of the system, together with the action of Coulomb mutual interaction of two electrons representing two different qbits, allows the implementation of basic one-qbit and two-qbit quantum logic gates. Numerical simulations confirm the correctness of the hypothesis.
Keywords :
logic simulation; mesoscopic systems; quantum gates; semiconductor quantum wires; Coulomb interaction; mesoscopic semiconductor technology; numerical simulation; potential barrier; quantum logic gate; quantum wire; Coupling circuits; Electron beams; Jacobian matrices; Logic gates; Numerical simulation; Potential well; Quantum computing; Quantum mechanics; Wave functions; Wires;
Conference_Titel :
Computational Electronics, 2000. Book of Abstracts. IWCE Glasgow 2000. 7th International Workshop on
Conference_Location :
Glasgow, UK
Print_ISBN :
0-85261-704-6
DOI :
10.1109/IWCE.2000.869912
