Scalable quantum computing with ion-implanted dopant atoms in silicon

A. Morello,G. Tosi,F.A. Mohiyaddin,V. Schmitt,V. Mourik,T. Botzem,A. Laucht,J.J. Pla,S. Tenberg,R. Savytskyy,M. Madzik,F. Hudson,A.S. Dzurak,K.M. Itoh, A.M. Jakob,B.C. Johnson,J.C. McCallum,D.N. Jamieson

2018 IEEE International Electron Devices Meeting (IEDM)（2018）

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摘要

We present a scalable strategy to manufacture quantum computer devices, by encoding quantum information in the combined electron-nuclear spin state of individual ion-implanted phosphorus dopant atoms in silicon. Our strategy allows a typical pitch between quantum bits of order 200 nm, and retains compatibility with the standard fabrication processes adopted in classical CMOS nanoelectronic devices. We theoretically predict fast and high-fidelity quantum logic operations, and present preliminary experimental progress towards the realization of a “flip-flop” qubit system.

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关键词

scalable quantum computing,ion-implanted dopant atoms,quantum computer devices,combined electron-nuclear spin state,individual ion-implanted phosphorus dopant atoms,quantum bits,standard fabrication processes,classical CMOS nanoelectronic devices,high-fidelity quantum logic operations,quantum information encoding,silicon,flip-flop,qubit system,size 200.0 nm,Si:P

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