Dangling-bond charge qubit on a silicon surface

Barry C. Sanders; Gino A. DiLabio; Jason L. Pitters; Josh Mutus; Lucian Livadaru; Peng Xue; Robert A. Wolkow; Zahra Shaterzadeh-Yazdi

arxiv: 0910.1797 · v2 · pith:IZ7H4JYDnew · submitted 2009-10-09 · 🪐 quant-ph · cond-mat.other

Dangling-bond charge qubit on a silicon surface

Lucian Livadaru , Peng Xue , Zahra Shaterzadeh-Yazdi , Gino A. DiLabio , Josh Mutus , Jason L. Pitters , Barry C. Sanders , Robert A. Wolkow This is my paper

classification 🪐 quant-ph cond-mat.other

keywords qubitchargedanglingbondscoherentcomputingdynamicsquantum

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Two closely spaced dangling bonds positioned on a silicon surface and sharing an excess electron are revealed to be a strong candidate for a charge qubit. Based on our study of the coherent dynamics of this qubit, its extremely high tunneling rate ~ 10^14 1/s greatly exceeds the expected decoherence rates for a silicon-based system, thereby overcoming a critical obstacle of charge qubit quantum computing. We investigate possible configurations of dangling bond qubits for quantum computing devices. A first-order analysis of coherent dynamics of dangling bonds shows promise in this respect.

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Dangling-bond charge qubit on a silicon surface

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