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Spectral signatures of vibronic coupling in trapped cold ionic Rydberg systems (2024)
Journal Article
Wilkinson, J. W. P., Li, W., & Lesanovsky, I. (in press). Spectral signatures of vibronic coupling in trapped cold ionic Rydberg systems. Physical Review Letters,

Atoms and ions confined with electric and optical fields form the basis of many current quantum simulation and computing platforms. When excited to high-lying Rydberg states, long-ranged dipole interactions emerge which strongly couple the electronic... Read More about Spectral signatures of vibronic coupling in trapped cold ionic Rydberg systems.

Tripartite quantum Rabi model with trapped Rydberg ions (2024)
Journal Article
Hamlyn, T. J., Zhang, C., Lesanovsky, I., & Li, W. (in press). Tripartite quantum Rabi model with trapped Rydberg ions. Physical Review Research,

We investigate a tripartite quantum Rabi model (TQRM) wherein a bosonic mode concurrently couples to two spin-1/2 particles through a spin-spin interaction, resulting in a spin-spin-boson coupling-a departure from conventional quantum Rabi models fea... Read More about Tripartite quantum Rabi model with trapped Rydberg ions.

Benchmarking discrete truncated Wigner approximation and neural network quantum states with the exact dynamics in a Rydberg atomic chain (2024)
Journal Article
Naik, V., Shenoy, V., Li, W., & gopinathan rejani, R. N. (in press). Benchmarking discrete truncated Wigner approximation and neural network quantum states with the exact dynamics in a Rydberg atomic chain. Physica Scripta, https://doi.org/10.1088/1402-4896/ad3d9d

We benchmark the discrete truncated Wigner approximation (DTWA) and Neural quantum states (NQS) based on restricted Boltzmann-like machines with the exact excitation and correlation dynamics in a chain of ten Rydberg atoms. The initial state is where... Read More about Benchmarking discrete truncated Wigner approximation and neural network quantum states with the exact dynamics in a Rydberg atomic chain.

Dissipative stabilization of high-dimensional GHZ states for neutral atoms (2024)
Journal Article
Zhao, Y., Yang, Y., Li, W., & Shao, X. (2024). Dissipative stabilization of high-dimensional GHZ states for neutral atoms. Applied Physics Letters, 124(11), Article 114001. https://doi.org/10.1063/5.0192602

High-dimensional quantum entanglement characterizes the entanglement of quantum systems within a larger Hilbert space, introducing more intricate and complex correlations among the entangled particles' states. The high-dimensional Greenberger-Horne-Z... Read More about Dissipative stabilization of high-dimensional GHZ states for neutral atoms.

Ergodicity breaking from Rydberg clusters in a driven-dissipative many-body system (2024)
Journal Article
Ding, D., Bai, Z., Liu, Z., Shi, B., Guo, G., Li, W., & Adams, C. S. (2024). Ergodicity breaking from Rydberg clusters in a driven-dissipative many-body system. Science Advances, 10(9), Article eadl5893. https://doi.org/10.1126/sciadv.adl5893

It is challenging to probe ergodicity breaking trends of a quantum many-body system when dissipation inevitably damages quantum coherence originated from coherent coupling and dispersive two-body interactions. Rydberg atoms provide a test bed to dete... Read More about Ergodicity breaking from Rydberg clusters in a driven-dissipative many-body system.

Interference of cavity light by a single atom acting as a double slit (2023)
Journal Article
Zhou, Y., Li, X., Li, W., & Zhang, H. (2023). Interference of cavity light by a single atom acting as a double slit. Physical Review A, 108(6), Article 063711. https://doi.org/10.1103/PhysRevA.108.063711

Young's double-slit interference experiment is central to quantum mechanics. While it has been demonstrated that an array of atoms can produce interference in light, it is a fundamental question to ask whether a single atom can act as a double slit w... Read More about Interference of cavity light by a single atom acting as a double slit.

Rydberg-ion flywheel for quantum work storage (2023)
Journal Article
Martins, W. S., Carollo, F., Li, W., Brandner, K., & Lesanovsky, I. (2023). Rydberg-ion flywheel for quantum work storage. Physical Review A, 108(5), Article L050201. https://doi.org/10.1103/PhysRevA.108.L050201

Trapped ions provide a platform for quantum technologies that offers long coherence times and high degrees of scalability and controllability. Here, we use this platform to develop a realistic model of a thermal device consisting of two laser-driven,... Read More about Rydberg-ion flywheel for quantum work storage.

Accelerating relaxation through Liouvillian exceptional point (2023)
Journal Article
Zhou, Y., Yu, X., Wu, C., Li, X., Zhang, J., Li, W., & Chen, P. (2023). Accelerating relaxation through Liouvillian exceptional point. Physical Review Research, 5(4), Article 043036. https://doi.org/10.1103/PhysRevResearch.5.043036

We investigate speeding up of relaxation of Markovian open quantum systems with the Liouvillian exceptional point (LEP), where the slowest decay mode degenerate with a faster decay mode. The degeneracy significantly increases the gap of the Liouvilli... Read More about Accelerating relaxation through Liouvillian exceptional point.

Thermal-dephasing-tolerant generation of mesoscopic superposition states with Rydberg dressed blockade (2023)
Journal Article
Zheng, R., Su, S., Song, J., Li, W., & Xia, Y. (2023). Thermal-dephasing-tolerant generation of mesoscopic superposition states with Rydberg dressed blockade. Physical Review A, 108(4), Article 042405. https://doi.org/10.1103/PhysRevA.108.042405

Multipartite entangled states involving non-locality are one of the most fascinating characteristics of quantum mechanics. In this work, we propose a thermal-dephasing-tolerant generation of mesoscopic entangled states with Rydberg dressed atoms. We... Read More about Thermal-dephasing-tolerant generation of mesoscopic superposition states with Rydberg dressed blockade.

Quantum sensing of microwave electric fields based on Rydberg atoms (2023)
Journal Article
Yuan, J., Yang, W., Jing, M., Zhang, H., Jiao, Y., Li, W., …Jia, S. (2023). Quantum sensing of microwave electric fields based on Rydberg atoms. Reports on Progress in Physics, 86(10), https://doi.org/10.1088/1361-6633/acf22f

Microwave electric field (MW E-field) sensing is important for a wide range of applications in the areas of remote sensing, radar astronomy and communications. Over the past decade, Rydberg atoms have been used in ultrasensitive, wide broadband, trac... Read More about Quantum sensing of microwave electric fields based on Rydberg atoms.