HAIT Journal of Science and Engineering
Volume 1, Issue 4, pp. 601-625
© 2004 Holon Academic Institute of Technology

 

Crossover of a quantum dot with spin-orbit interaction in a high magnetic field to a quantum Hall ferromagnet

Procolo Lucignano1,2,*, Benoit Jouault3, and Arturo Tagliacozzo1,2

1Coherentia - Istituto Nazionale di Fisica della Materia(INFM),
Monte S. Angelo - via Cintia, I-80126 Napoli, Italy
2Dipartimento di Scienze Fisiche
Universitá di Napoli "Federico II", Napoli, Italy
3Groupe d'Etude des Semiconducteurs, UMR 5650,
Université Montpellier II, 34095 Montpellier, Cedex 5, France
*Corresponding author: procolo@na.infn.it
Received 7 December 2004, accepted 12 March 2005

 

Coulomb interactions of few electrons confined in a disk-shaped quantum dot, with a large magnetic field perpendicular to the dot, produce a fully spin polarized ground state. In the presence of an electric field also perpendicular to the dot and coupling spin and orbit (Rashba term), we find that the first excited state is a spin exciton with a reversed spin at the center of the dot. We explore the analogy with the quantum Hall ferromagnet at filling close to one, which is spin polarized and has skyrmions as collective low lying excitations. The energy of the spin exciton can be tuned with the electric field, and infrared radiation can provide energy and angular momentum to excite it. In the quantum dot the gap is finite and is tuned by the Rashba coupling. This opens up many unexpected possibilities of controlling the electron spin density at the dot and influencing the underlying nuclear spins via hyperfine interaction.


PACS: 73.21.La, 73.23.-b, 78.67.Hc

 

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Presented at International Workshop Correlated Electrons at High Magnetic Fields. Ein-Gedi/Holon, Israel, 19-23 December 2004


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