Your search keyword '"Tong, Wenqi"' showing total 7 results

1. Qualitatively altered driven Dicke superradiance in extended systems due to infinitesimal perturbations

Author

Tong, Wenqi and Robicheaux, F.

Subjects

Quantum Physics

Abstract

The driven Dicke model, with interesting quantum phases induced by parameterized driving, has been intensively studied in cavities, where permutation symmetry applies due to the atoms' equal coupling to the field and identical interaction. As a result, the system, with proper initialization, can remain in a highly symmetric subset of the state space, where the photon emission of each atom constructively interferes with each other, leading to superradiance at steady state. However, because of the degeneracy of steady states for the driven Dicke model, the steady state can be qualitatively altered by an infinitesimal perturbation. In this work, we simulate superconducting qubits coupled to a 1D waveguide as the extended system and theoretically investigate four kinds of perturbations: local dephasing, individual driving phases, the separation between adjacent qubits, and individual detunings. Using an angular momentum basis, we predict the dimension of the degenerate subspace and study the transition within the subspace due to the perturbation.

Published

2024

2. Electric field control of interaction between magnons and quantum spin defects

Author

Solanki, Abhishek Bharatbhai, Bogdanov, Simeon I., Rustagi, Avinash, Dilley, Neil R., Shen, Tingting, Rahman, Mohammad Mushfiqur, Tong, Wenqi, Debashis, Punyashloka, Chen, Zhihong, Appenzeller, Joerg, Chen, Yong P., Shalaev, Vladimir M., and Upadhyaya, Pramey

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Quantum Physics

Abstract

Hybrid systems coupling quantum spin defects (QSD) and magnons can enable unique spintronic device functionalities and probes for magnetism. Here, we add electric field control of magnon-QSD coupling to such systems by integrating ferromagnet-ferroelectric multiferroic with nitrogen-vacancy (NV) center spins. Combining quantum relaxometry with ferromagnetic resonance measurements and analytical modeling, we reveal that the observed electric-field tuning results from ferroelectric polarization control of the magnon-generated fields at the NV. Exploiting the demonstrated control, we also propose magnon-enhanced hybrid electric field sensors with improved sensitivity.

Published

2020

3. Electric field control of interaction between magnons and quantum spin defects

Author

Solanki, Abhishek B., primary, Bogdanov, Simeon I., additional, Rahman, Mohammad M., additional, Rustagi, Avinash, additional, Dilley, Neil R., additional, Shen, Tingting, additional, Tong, Wenqi, additional, Debashis, Punyashloka, additional, Chen, Zhihong, additional, Appenzeller, Joerg, additional, Chen, Yong P., additional, Shalaev, Vladimir M., additional, and Upadhyaya, Pramey, additional

Published

2022

4. ELECTRIC FIELD SENSING USING SINGLE SPIN MAGNET HYBRID SYSTEM

Author

Tong, Wenqi

Subjects

20603 Quantum Information, Computation and Communication, FOS: Physical sciences

Abstract

Quantum sensing, a protocol that takes advantage of the extreme sensitivity of quantum systems to their environment, enables many applications of quantum systems for sensing. Inspired by direct electric field sensing using the Stark effect of a nitrogen-vacancy(NV) center, this work implements an NV-magnet hybrid way to explore the possibilities of overcoming NV���s relatively weak coupling strength to electric fields. The magnetic-noise-induced population relaxation of the NV center serves as the mechanism for sensing. Within this scheme, the magnetic noise spectrum is tuned by modulating the magnetic properties via voltage-controlled magnetic anisotropy (VCMA) or electric-field-induced magnetoelastic effect. In this way, the noise carrying the information of the electric field is taken as a signal - the shift of the noise spectrum leads to a population difference of NV energy levels, which is used for evaluating electric fields. The investigation of the relation between sensitivities and operation points reveals that lower operation frequency is desirable for better performance. The comparison between VCMA and electric-field-induced magnetoelastic effect indicates that the efficiency of converting electric field into magnetic property modulation is a critical parameter for sensitivity enhancement.

Published

2021

5. Two-Dimensional Layered Materials-Based Spintronics

Author

Su, Guohui, primary, Wu, Xing, additional, Tong, Wenqi, additional, and Duan, Chungang, additional

Published

2015

6. Inversion of the data of electromagnetic scattering by digital imaging of multiple-hologram

Author

Ji Yingnan, Liu Lizhen, and Tong Wenqi

Subjects

Digital image, Optics, law, Scattering, business.industry, Holography, Digital imaging, Inversion (meteorology), Dipole antenna, Iterative reconstruction, business, law.invention

Published

2005

7. Inversion of the data of electromagnetic scattering by digital imaging of multiple-hologram.

Author

Ji Yingnan, Tong Wenqi, and Liu Lizhen

Published

1987