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Paper detail

Properties of Coupled Single-Electron Lines

Fundamental properties of two electrostatically interacting single-electron lines (SEL) are determined from a minimalistic tight-binding model. The lines are represented by a chain of coupled quantum wells that could be implemented in a mainstream nanoscale CMOS process technology and tuned electrostatically by DC or AC voltage biases. The obtained results show an essential qualitative difference with two capacitively coupled classical electrical lines. The derived equations and their solutions prove that the two coupled SET lines can create an entanglement between electrons. The results indicate a possibility of constructing electrostatic (non-spin) coupled qubits that could be used as building blocks in a CMOS quantum computer.

preprint2019arXivOpen access
Krzysztof PomorskiPanagiotis GiounanlisElena BlokhinaImran BashirDirk LeipoldRobert Bogdan Staszewski
cond-mat.mes-hall
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Krzysztof PomorskiPanagiotis GiounanlisElena BlokhinaImran BashirDirk LeipoldRobert Bogdan Staszewski

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