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Quantum Control of Spin Qubits Using Nanomagnets

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Title: Quantum Control of Spin Qubits Using Nanomagnets
Authors: Niknam, Mohamad, Chowdhury, Md Fahim F., Rajib, Md Mahadi, Misba, Walid Al, Schwartz, Robert N., Wang, Kang L., Atulasimha, Jayasimha, Bouchard, Louis-S.
Publication Year: 2022
Collection: Condensed Matter
Quantum Physics
Subject Terms: Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
More Details: Single-qubit gates are essential components of a universal quantum computer. Without selective addressing of individual qubits, scalable implementation of quantum algorithms is not possible. When the qubits are discrete points or regions on a lattice, the selective addressing of magnetic spin qubits at the nanoscale remains a challenge due to the difficulty of localizing and confining a classical divergence-free field to a small volume of space. Herein we propose a new technique for addressing spin qubits using voltage-control of nanoscale magnetism, exemplified by the use of voltage control of magnetic anisotropy (VCMA). We show that by tuning the frequency of the nanomagnet's electric field drive to the Larmor frequency of the spins confined to a nanoscale volume, and by modulating the phase of the drive, single-qubit quantum gates with fidelities approaching those for fault-tolerant quantum computing can be implemented. Such single-qubit gate operations have the advantage of remarkable energy efficiency, requiring only tens of femto-Joules per gate operation, and lossless, purely magnetic field control (no E-field over the target volume). Their physical realization is also straightforward using existing foundry manufacturing techniques.
Comment: 10 pages, 6 figures
Document Type: Working Paper
DOI: 10.1038/s42005-022-01041-8
Access URL: http://arxiv.org/abs/2203.16720
Accession Number: edsarx.2203.16720
Database: arXiv
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  Data: <searchLink fieldCode="AR" term="%22Niknam%2C+Mohamad%22">Niknam, Mohamad</searchLink><br /><searchLink fieldCode="AR" term="%22Chowdhury%2C+Md+Fahim+F%2E%22">Chowdhury, Md Fahim F.</searchLink><br /><searchLink fieldCode="AR" term="%22Rajib%2C+Md+Mahadi%22">Rajib, Md Mahadi</searchLink><br /><searchLink fieldCode="AR" term="%22Misba%2C+Walid+Al%22">Misba, Walid Al</searchLink><br /><searchLink fieldCode="AR" term="%22Schwartz%2C+Robert+N%2E%22">Schwartz, Robert N.</searchLink><br /><searchLink fieldCode="AR" term="%22Wang%2C+Kang+L%2E%22">Wang, Kang L.</searchLink><br /><searchLink fieldCode="AR" term="%22Atulasimha%2C+Jayasimha%22">Atulasimha, Jayasimha</searchLink><br /><searchLink fieldCode="AR" term="%22Bouchard%2C+Louis-S%2E%22">Bouchard, Louis-S.</searchLink>
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  Data: Single-qubit gates are essential components of a universal quantum computer. Without selective addressing of individual qubits, scalable implementation of quantum algorithms is not possible. When the qubits are discrete points or regions on a lattice, the selective addressing of magnetic spin qubits at the nanoscale remains a challenge due to the difficulty of localizing and confining a classical divergence-free field to a small volume of space. Herein we propose a new technique for addressing spin qubits using voltage-control of nanoscale magnetism, exemplified by the use of voltage control of magnetic anisotropy (VCMA). We show that by tuning the frequency of the nanomagnet's electric field drive to the Larmor frequency of the spins confined to a nanoscale volume, and by modulating the phase of the drive, single-qubit quantum gates with fidelities approaching those for fault-tolerant quantum computing can be implemented. Such single-qubit gate operations have the advantage of remarkable energy efficiency, requiring only tens of femto-Joules per gate operation, and lossless, purely magnetic field control (no E-field over the target volume). Their physical realization is also straightforward using existing foundry manufacturing techniques.<br />Comment: 10 pages, 6 figures
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