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Literature DB >> 21231547

Quantum coherence in a one-electron semiconductor charge qubit.

K D Petersson¹, J R Petta, H Lu, A C Gossard.

Abstract

We study quantum coherence in a semiconductor charge qubit formed from a GaAs double quantum dot containing a single electron. Voltage pulses are applied to depletion gates to drive qubit rotations and noninvasive state readout is achieved using a quantum point contact charge detector. We measure a maximum coherence time of ∼7 ns at the charge degeneracy point, where the qubit level splitting is first-order insensitive to gate voltage fluctuations. We compare measurements of the coherence time as a function of detuning with numerical simulations and predictions from a 1/f noise model.

Year: 2010 PMID： 21231547 DOI： 10.1103/PhysRevLett.105.246804

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

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Cited

19 in total

Quantum coherence in a one-electron semiconductor charge qubit.

1. High-fidelity gates in quantum dot spin qubits.

2. Quantum simulation of a Fermi-Hubbard model using a semiconductor quantum dot array.

3. Quantum control and process tomography of a semiconductor quantum dot hybrid qubit.

4. Two-axis control of a singlet-triplet qubit with an integrated micromagnet.

5. Ultrafast universal quantum control of a quantum-dot charge qubit using Landau-Zener-Stückelberg interference.

6. Conditional rotation of two strongly coupled semiconductor charge qubits.

7. Viewing Majorana Bound States by Rabi Oscillations.

8. Suspending effect on low-frequency charge noise in graphene quantum dot.

9. Quantum gates by periodic driving.

10. Tuning inter-dot tunnel coupling of an etched graphene double quantum dot by adjacent metal gates.