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W2021315052 abstract "We perform a systematic exact diagonalization study of spin-orbit coupling effects for stationary few-electron states confined in quasi two-dimensional double quantum dots. We describe the spin-orbit-interaction induced coupling between bonding and antibonding orbitals and its consequences for magneto-optical absorption spectrum. The spin-orbit coupling for odd electron numbers (one, three) %only weakly perturbs the ground-state wave functions. %Nevertheless, %the spin-orbit interaction opens avoided crossings between low energy excited levels of opposite spin orientation and opposite spatial parity. For two-electrons the spin-orbit coupling allows for low-energy optical transitions that are otherwise forbidden by spin and parity selection rules. We demonstrate that the energies of optical transitions can be significantly increased by an in-plane electric field but only for odd electron numbers. Occupation of single-electron orbitals and effects of spin-orbit coupling on electron distribution between the dots are also discussed." @default.
W2021315052 created "2016-06-24" @default.
W2021315052 creator A5002286583 @default.
W2021315052 creator A5015257185 @default.
W2021315052 date "2010-06-09" @default.
W2021315052 modified "2023-10-03" @default.
W2021315052 title "Coupling of bonding and antibonding electron orbitals in double quantum dots by spin-orbit interaction" @default.
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W2021315052 doi "https://doi.org/10.1103/physrevb.81.235311" @default.
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