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* DOI:10.1073/pnas.2313754120
* Corpus ID: 266740740

MAGNON-MEDIATED QUBIT COUPLING DETERMINED VIA DISSIPATION MEASUREMENTS

@article{Fukami2024MagnonmediatedQC,
title={Magnon-mediated qubit coupling determined via dissipation measurements},
author={Masaya Fukami and Jonathan C. Marcks and Denis R. Candido and Leah R Weiss and Benjamin S. Soloway and Sean E. Sullivan and Nazar Delegan and F. Joseph Heremans and Michael E Flatt{\'e} and David D. Awschalom},
journal={Proceedings of the National Academy of Sciences of the United States of America},
year={2024},
volume={121},
url={https://api.semanticscholar.org/CorpusID:266740740}
}

* Masaya Fukami, Jonathan C. Marcks, +7 authors D. Awschalom
* Published in Proceedings of the National… 3 January 2024
* Physics

Significance Optically addressable spin defects in solids such as
nitrogen-vacancy (NV) centers in diamond are promising qubit platforms. A major
obstacle to their integration in quantum technologies is the limited on-chip
deterministic entanglement pathway. Magnon-mediated interaction mechanisms have
attracted significant attention as a solution to this challenge, thanks to the
intrinsic NV-magnon magnetic coupling. However, experimental demonstration of
the signature of magnon-mediated NV–NV… Expand
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* 31 References
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ELECTRICAL CONTROL OF COHERENT SPIN ROTATION OF A SINGLE-SPIN QUBIT

Xiaoche WangYuxuan Xiao+7 authors C. Du
Physics, Engineering
* 2020

Nitrogen vacancy (NV) centers, optically active atomic defects in diamond, have
attracted tremendous interest for quantum sensing, network, and computing
applications due to their excellent quantum… Expand
* 23
[PDF]

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LONG-DISTANCE ENTANGLEMENT OF SPIN QUBITS VIA FERROMAGNET

Luka TrifunovicF. PedrocchiD. Loss
Physics
* 2013

We propose a mechanism of coherent coupling between distant spin qubits
interacting dipolarly with a ferromagnet. We derive an effective two-spin
interaction Hamiltonian and estimate the coupling… Expand
* 78
[PDF]

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LONG-RANGE SPIN WAVE MEDIATED CONTROL OF DEFECT QUBITS IN NANODIAMONDS

Paolo AndrichCharles F. de las Casas+5 authors D. Awschalom
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npj Quantum Information
* 2017

Hybrid architectures that combine nitrogen-vacancy centers in diamond with other
materials and physical systems have been proposed to enhance the
nitrogen-vacancy center’s capabilities in many… Expand
* 106
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NANOSCALE DETECTION OF MAGNON EXCITATIONS WITH VARIABLE WAVEVECTORS THROUGH A
QUANTUM SPIN SENSOR.

Eric Lee-WongRuolan Xue+4 authors C. Du
Physics, Materials Science
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* 2020

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The optical detection of magnons with a broad range of wavevectors in magnetic
insulator Y3Fe5O12 thin films by proximate nitrogen-vacancy (NV) single-spin
sensors is reported, providing an alternative perspective to reveal the
underlying spin behaviors in magnetic systems.Expand
* 45
[PDF]

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PREDICTED STRONG COUPLING OF SOLID-STATE SPINS VIA A SINGLE MAGNON MODE

D. CandidoG. FuchsE. Johnston-HalperinM. Flatt'e
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* 2020

We propose an approach to realize a hybrid quantum system composed of a diamond
nitrogen-vacancy (NV) center spin coupled to a magnon mode of the low-damping,
low-moment organic ferrimagnet vanadium… Expand
* 31
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COHERENT COUPLING BETWEEN A FERROMAGNETIC MAGNON AND A SUPERCONDUCTING QUBIT

Y. TabuchiSeiichiro Ishino+4 authors Yasunobu Nakamura
Physics
Science
* 2015

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The coherent coupling between a single-magnon excitation in a millimeter-sized
ferromagnetic sphere and a superconducting qubit is demonstrated, with the
coupling strength far exceeding the damping rates, thus bringing the hybrid
system into the strong coupling regime.Expand
* 532
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COHERENT SPIN–PHOTON COUPLING USING A RESONANT EXCHANGE QUBIT

A. LandigJ. Koski+8 authors T. Ihn
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* 2018

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This work demonstrates strong coupling between single microwave photons in a
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megahertz is demonstrated, which opens up a direct path to entangling single
spins using microwave- frequencies.Expand
* 335
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CONTROL AND LOCAL MEASUREMENT OF THE SPIN CHEMICAL POTENTIAL IN A MAGNETIC
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* 2017

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Here, single-spin magnetometry is introduced as a generic platform for
nonperturbative, nanoscale characterization of spin chemical potentials and is
experimentally used to investigate magnons in a magnetic insulator, finding that
the magnon chemical potential can be controlled by driving the system's
ferromagnetic resonance.Expand
* 195
* PDF

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