Simulation of entanglement dynamics for a scattering between a free and a bound carrier in a quantum wire

Author

Bordone, P. ; Bertoni, A. ; Jacoboni, C.

Author_Institution

Dipt. di Fisica, Univ. di Modena e Reggio Emilia, Italy

fYear

2004

fDate

24-27 Oct. 2004

Firstpage

217

Lastpage

218

Abstract

We present a numerical analysis of the creation of entanglement between an electron freely propagating along a quantum wire and a charged particle bound to a specific site by a harmonic potential. The latter can be considered as a simplified model of an ionized impurity with an internal structure or of a localized phonon mode. Its dynamics is coupled to that of the free electron through a screened Coulomb potential. The time-dependent Schrodinger equation is solved numerically for the two-particle wave function thus describing the coherent evolution of the bipartite system. The two particle are considered distinguishable. As initial condition the product of a minimum uncertainty wave packet and the ground state of the harmonic oscillator are considered.

Keywords

Schrodinger equation; electric potential; electronic engineering computing; harmonic oscillators; quantum entanglement; semiconductor quantum wires; wave functions; bipartite system; bound carrier; charged particle; electron propagation; electron scattering; entanglement dynamics simulation; free carrier; free electron; ground state; harmonic potential; ionized impurity; localized phonon; minimum uncertainty wave packet; numerical analysis; quantum entanglement; quantum wire; screened Coulomb potential; time-dependent Schrodinger equation; two-particle wave function; Partial differential equations; Quantum theory; Quantum wires; Voltage; Wave functions;

fLanguage

English

Publisher

ieee

Conference_Titel

Computational Electronics, 2004. IWCE-10 2004. Abstracts. 10th International Workshop on

Conference_Location

West Lafayette, IN, USA

Print_ISBN

0-7803-8649-3

Type

conf

DOI

10.1109/IWCE.2004.1407404

Filename

1407404