Theory of valence-band holes as Luttinger spinors in vertically coupled quantum dots

J. I. Climente, M. Korkusinski, G. Goldoni, and P. Hawrylak

Phys. Rev. B 78, 115323 – Published 25 September 2008

Abstract

We describe the valence-band holes of quantum dot molecules formed by two vertically coupled disks, using a four-band $k \cdot p$ Hamiltonian. It is shown that the strong spin-orbit coupling of the valence band introduces characteristic features in the hole tunneling, which are not captured by the usual single-band heavy-hole approximation. Therefore, a treatment of hole states as multiband Luttinger spinors is required. Within this description the parity symmetry in the vertical direction is lost, and chirality symmetry must be used instead. Effects of spin-orbit coupling on the hole and exciton states, as well as on the optical transitions are discussed. We show that, with increasing interdot distance, the spin-orbit interaction leads to a bonding-antibonding ground-state transition and to quenching of the excitonic emission. These results are relevant to recent experiments.

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Received 19 May 2008

DOI:https://doi.org/10.1103/PhysRevB.78.115323

Authors & Affiliations

J. I. Climente¹, M. Korkusinski², G. Goldoni^1,3, and P. Hawrylak^2,*

¹CNR-INFM National Center on nanoStructures and bioSystems at Surfaces (S3), Via Campi 213/A, 41100 Modena, Italy
²Institute for Microstructural Sciences, National Research Council of Canada, Ottawa, Canada K1A 0R6
³Dipartimento di Fisica, Università di Modena e Reggio Emilia, Via Campi 213/A, 41100 Modena, Italy

^*pawel.hawrylak@nrc.ca

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Vol. 78, Iss. 11 — 15 September 2008

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