Adv Quantum Tech
 2022
DOI: 10.1002/qute.202200044
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Symmetry‐Protected Two‐Level System in the H3 Center Enabled by a Spin–Photon Interface: A Competitive Qubit Candidate for the NISQ Technology

Guodong Bian
1
,
Jixing Zhang
2
,
Lixia Xu
3
et al.

Abstract: Recent technological advances in the noisy intermediate‐scale quantum (NISQ) era are promising. Optically addressable color centers in semiconductors can achieve spin localization and are the most promising spin qubit candidates for NISQ technologies. Exploring a suitable and scalable atomic‐like color center is a prerequisite in this context. Here, a symmetry‐protected two‐level system (qubit) derived from a set of naturally separated Bell states in the H3 center with C2v symmetry is characterized. The charac… Show more

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“…Similar approaches can be easily transplanted to the scenarios of other solid-state defect systems where the charge state and spin state dynamics are coupled. [59,60]…”
Section: Discussionmentioning
confidence: 99%

Measurement of Charge State Dynamics in Nitrogen−Vacancy Centers Based on Microwave‐Pulses‐Assisted Longitudinal Relaxations Balancing of Spin Qutrit

Li,
Yuan,
Bian
et al. 2024
Adv Quantum Tech
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“…Similar approaches can be easily transplanted to the scenarios of other solid-state defect systems where the charge state and spin state dynamics are coupled. [59,60]…”
Section: Discussionmentioning
confidence: 99%

Measurement of Charge State Dynamics in Nitrogen−Vacancy Centers Based on Microwave‐Pulses‐Assisted Longitudinal Relaxations Balancing of Spin Qutrit

Li,
Yuan,
Bian
et al. 2024
Adv Quantum Tech
Self Cite
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0
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Near-Field Sensing of Microwave Magnetic Field Phase Difference Enabled by N - V -Center Spins

Li
1
,
Zhang
2
,
Xu
3
et al. 2023
Phys. Rev. Applied
2
0
0
0
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