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Literature DB >> 18352316

Electrical control of spin relaxation in a quantum dot.

S Amasha¹, K Maclean, Iuliana P Radu, D M Zumbühl, M A Kastner, M P Hanson, A C Gossard.

Abstract

We demonstrate electrical control of the spin relaxation time T1 between Zeeman-split spin states of a single electron in a lateral quantum dot. We find that relaxation is mediated by the spin-orbit interaction, and by manipulating the orbital states of the dot using gate voltages we vary the relaxation rate W identical withT1(-1) by over an order of magnitude. The dependence of W on orbital confinement agrees with theoretical predictions, and from these data we extract the spin-orbit length. We also measure the dependence of W on the magnetic field and demonstrate that spin-orbit mediated coupling to phonons is the dominant relaxation mechanism down to 1 T, where T1 exceeds 1 s.

Entities: Chemical Gene

Year: 2008 PMID： 18352316 DOI： 10.1103/PhysRevLett.100.046803

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

7 in total

Electrical control of spin relaxation in a quantum dot.

1. Single spins in self-assembled quantum dots.

2. Fast spin information transfer between distant quantum dots using individual electrons.

3. Super-long life time for 2D cyclotron spin-flip excitons.

4. Hyperfine-phonon spin relaxation in a single-electron GaAs quantum dot.

5. Doppler effect induced spin relaxation boom.

6. Scaling of decoherence for a system of uncoupled spin qubits.

7. Toward high-fidelity coherent electron spin transport in a GaAs double quantum dot.