Karlsson, K. F. and Dupertuis, M. A. and Oberli, D. Y. and Pelucchi, E. and Rudra, A. and Holtz, P. O. and Kapon, E.

2010

Physical Review B

Fine structure of exciton complexes in high-symmetry quantum dots: Effects of symmetry breaking and symmetry elevation

Validated

()

81

16

Quantum dots (QDs) of high symmetry (e.g., C(3 nu)) have degenerate bright exciton states, unlike QDs of C(2 nu) symmetry, making them intrinsically suitable for the generation of entangled photon pairs. Deviations from C(3 nu) symmetry are detected in real QDs by polarization-resolved photoluminescence spectroscopy in side-view geometry of InGaAs/AlGaAs dots formed in tetrahedral pyramids. The theoretical analysis reveals both an additional symmetry plane and weak symmetry breaking, as well as the interplay with electron-hole and hole-hole exchange interactions manifested by the excitonic fine structure.