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Paper detail

Quantum Dot Spin Cellular Automata for Realizing a Quantum Processor

We show how "single" quantum dots, each hosting a singlet-triplet qubit, can be placed in arrays to build a spin quantum cellular automaton. A fast ($\sim 10$ ns) deterministic coherent singlet-triplet filtering, as opposed to current incoherent tunneling/slow-adiabatic based quantum gates (operation time $\sim 300$ ns), can be employed to produce a two-qubit gate through capacitive (electrostatic) coupling that can operate over significant distances. This is the coherent version of the widely discussed charge and nano-magnet cellular automata and would offer speed, reduce dissipation, perform quantum computation, while interfacing smoothly with its classical counterpart. This combines the best of two worlds -- the coherence of spin pairs known from quantum technologies, and the strength and range of electrostatic couplings from the charge based classical cellular automata.

preprint2015arXivOpen access
Abolfazl BayatCharles E. CreffieldJohn H. JeffersonMichael PepperSougato Bose
cond-mat.mes-hallquant-ph
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Abolfazl BayatCharles E. CreffieldJohn H. JeffersonMichael PepperSougato Bose

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