A two-qubit cell on the basis of boron nitride nanotubes for the quantum   computer

M.B. Belonenko; N.G. Lebedev; I.V. Zaporotskova

arXiv:cond-mat/0209582·cond-mat.mtrl-sci·May 23, 2007

A two-qubit cell on the basis of boron nitride nanotubes for the quantum computer

M.B. Belonenko, N.G. Lebedev, I.V. Zaporotskova

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TL;DR

This paper proposes a novel two-qubit cell design based on boron nitride nanotubes intercalated with metal atoms, supported by quantum chemical calculations showing localized unpaired spins.

Contribution

It introduces a new two-qubit cell concept using boron nitride nanotubes with intercalated metal atoms, supported by computational evidence.

Findings

01

Unpaired spins are localized on separate metal atoms.

02

Quantum chemical calculations support the feasibility of the two-qubit cell.

03

Proposes a new approach for quantum computer qubit implementation.

Abstract

We represent the results of quantum chemical calculations of boron nitride nanotubes intercalated by alkali and alkali-earth metall atoms and its ions. It was obtained that unpair spins were localized on seperated metal atoms. So we propose to construct the two-qubit cells on the basis of infilled boron nitride nanotubes for the quantum computer.

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Taxonomy

TopicsGraphene research and applications · Molecular Junctions and Nanostructures · Quantum-Dot Cellular Automata