Suppressing Spin Qubit Dephasing by Nuclear State Preparation

Suppressing Spin Qubit Dephasing by Nuclear State Preparation

Coherent spin states in semiconductor quantum dots offer promise as electrically controllable quantum bits (qubits) with scalable fabrication. For few-electron quantum dots made from gallium arsenide (GaAs), fluctuating nuclear spins in the host lattice are the dominant source of spin decoherence. W...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2008-08, Vol.321 (5890), p.817-821
Hauptverfasser: Reilly, D.J, Taylor, J.M, Petta, J.R, Marcus, C.M, Hanson, M.P, Gossard, A.C
Format: Artikel
Sprache:eng
Schlagworte:
Classical and quantum physics: mechanics and fields
Electric potential
Electron spin
Electronics
Electrons
Exact sciences and technology
Foundations, theory of measurement, miscellaneous theories (including aharonov-bohm effect, bell inequalities, berry's phase)
Magnetic fields
Materials science
Nuclear spin
Physics
Precession
Pumping
Pumps
Quantum dots
Quantum mechanics
Quantum theory
Singlet state
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Zusammenfassung:Coherent spin states in semiconductor quantum dots offer promise as electrically controllable quantum bits (qubits) with scalable fabrication. For few-electron quantum dots made from gallium arsenide (GaAs), fluctuating nuclear spins in the host lattice are the dominant source of spin decoherence. We report a method of preparing the nuclear spin environment that suppresses the relevant component of nuclear spin fluctuations below its equilibrium value by a factor of ~70, extending the inhomogeneous dephasing time for the two-electron spin state beyond 1 microsecond. The nuclear state can be readily prepared by electrical gate manipulation and persists for more than 10 seconds.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1159221