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Main Authors: Yasini, Soheil, Shaterzadeh-Yazdi, Zahra, Taheri, Mahmoud Mohammad
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2303.17952
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author Yasini, Soheil
Shaterzadeh-Yazdi, Zahra
Taheri, Mahmoud Mohammad
author_facet Yasini, Soheil
Shaterzadeh-Yazdi, Zahra
Taheri, Mahmoud Mohammad
contents The coherent dynamics and control of spin qubits are essential requirements for quantum technology. A prominent challenge for coherent control of a spin qubit in a set of qubits is the destructive effect of the applied magnetic field on the coherent dynamics of neighbouring qubits due to its spatial extension. We propose a novel scheme to characterize the coherent dynamics of these quantum systems and to coherently control them using a magnetic field. Our scheme consists of a resonator that encompasses the desired quantum system and a modulated electron beam that passes through the resonator in close proximity to the quantum system of interest. The dynamics of the system is obtained by solving the Lindblad master equation. To verify the reliability of our model, we tested the model on a Potassium atom, $^{41}$K and NV$^-$ centre in Diamond. The results show that by properly controlling the parameters of the resonator and the electron beam, the coherence and decoherence rates of these quantum systems can be improved. Our model has the potential to be used for characterizing different types of spin-based quantum systems, and implementing quantum logic gates for quantum computation.
format Preprint
id arxiv_https___arxiv_org_abs_2303_17952
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Characterization and Coherent Control of Spin Qubits with Modulated Electron Beam and Resonator
Yasini, Soheil
Shaterzadeh-Yazdi, Zahra
Taheri, Mahmoud Mohammad
Quantum Physics
The coherent dynamics and control of spin qubits are essential requirements for quantum technology. A prominent challenge for coherent control of a spin qubit in a set of qubits is the destructive effect of the applied magnetic field on the coherent dynamics of neighbouring qubits due to its spatial extension. We propose a novel scheme to characterize the coherent dynamics of these quantum systems and to coherently control them using a magnetic field. Our scheme consists of a resonator that encompasses the desired quantum system and a modulated electron beam that passes through the resonator in close proximity to the quantum system of interest. The dynamics of the system is obtained by solving the Lindblad master equation. To verify the reliability of our model, we tested the model on a Potassium atom, $^{41}$K and NV$^-$ centre in Diamond. The results show that by properly controlling the parameters of the resonator and the electron beam, the coherence and decoherence rates of these quantum systems can be improved. Our model has the potential to be used for characterizing different types of spin-based quantum systems, and implementing quantum logic gates for quantum computation.
title Characterization and Coherent Control of Spin Qubits with Modulated Electron Beam and Resonator
topic Quantum Physics
url https://arxiv.org/abs/2303.17952