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Allowed and forbidden transitions in artificial hydrogen and helium atoms

Toshimasa Fujisawa (), David Guy Austing, Yasuhiro Tokura, Yoshiro Hirayama and Seigo Tarucha
Additional contact information
Toshimasa Fujisawa: NTT Corporation
David Guy Austing: NTT Corporation
Yasuhiro Tokura: NTT Corporation
Yoshiro Hirayama: NTT Corporation
Seigo Tarucha: NTT Corporation

Nature, 2002, vol. 419, issue 6904, 278-281

Abstract: Abstract The strength of radiative transitions in atoms is governed by selection rules that depend on the occupation of atomic orbitals with electrons1. Experiments have shown2,3,4,5 similar electron occupation of the quantized energy levels in semiconductor quantum dots—often described as artificial atoms. But unlike real atoms, the confinement potential of quantum dots is anisotropic, and the electrons can easily couple with phonons of the material6. Here we report electrical pump-and-probe experiments that probe the allowed and ‘forbidden’ transitions between energy levels under phonon emission in quantum dots with one or two electrons (artificial hydrogen and helium atoms). The forbidden transitions are in fact allowed by higher-order processes where electrons flip their spin. We find that the relaxation time is about 200?µs for forbidden transitions, 4 to 5 orders of magnitude longer than for allowed transitions. This indicates that the spin degree of freedom is well separated from the orbital degree of freedom, and that the total spin in the quantum dots is an excellent quantum number. This is an encouraging result for potential applications of quantum dots as basic entities for spin-based quantum information storage.

Date: 2002
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DOI: 10.1038/nature00976

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