(For full text of recent papers, please visit HERE）

25. Xiao-Feng Shi.

Fast nuclear-spin gates and electrons−nuclei entanglement of neutral atoms in weak magnetic fields.

Frontiers of Physics 19, 22203 (2024).

 

24. Yang Zhao and Xiao-Feng Shi.

Fractional Chern insulator with Rydberg-dressed neutral atoms.

Phys. Rev. A 108, 053107 (2023).

 

23. Xiao-Feng Shi.

Coherence-preserving cooling of nuclear spin qubits in a weak magnetic field.

Phys. Rev. A 107, 023102 (2023).

 

22. Seokho Jeong, Xiao-Feng Shi, Minhyuk Kim, and Jaewook Ahn.

Rydberg Wire Gates for Universal Quantum Computation.

Frontiers in Physics 10, 875673 (2022).

 

21. Xiao-Feng Shi.

Quantum logic and entanglement by neutral Rydberg atoms: methods and fidelity.

Quantum Sci. Technol. 7, 023002 (2022).

 

20. Xiao-Feng Shi.

Fast atom-photon entangling gates with a superconducting coplanar waveguide.

Phys. Rev. A 105, 042401 (2022).

 

19. Xiao-Feng Shi.

Hyperentanglement of divalent neutral atoms by Rydberg blockade.

Phys. Rev. A 104, 042422 (2021).

 

18. Xiao-Feng Shi and Yan Lu.

Quantum gates with weak van der Waals interactions of neutral Rydberg atoms.

Phys. Rev. A 104, 012615 (2021).

 

17. Xiao-Feng Shi.

Rydberg quantum computation with nuclear spins in two-electron neutral atoms.

Frontiers of Physics 16, 52501 (2021).

 

16. Xiao-Feng Shi.

Transition Slow-Down by Rydberg Interaction of Neutral Atoms and a Fast Controlled-NOT Quantum Gate.

Phys. Rev. Applied 14, 054058 (2020).

 

15. Xiao-Feng Shi.

Single-site Rydberg addressing in 3D atomic arrays for quantum computing with neutral atoms.

J. Phys. B 53, 054002 (2020).

 

14. Xiao-Feng Shi.

Suppressing Motional Dephasing of Ground-Rydberg Transition for High-Fidelity Quantum Control with Neutral Atoms.

Phys. Rev. Applied 13, 024008 (2020).

 

13. Xiao-Feng Shi.

Fast, Accurate, and Realizable Two-Qubit Entangling Gates by Quantum Interference in Detuned Rabi Cycles of Rydberg Atoms.

Phys. Rev. Applied 11, 044035 (2019).

 

12. Xiao-Feng Shi.

Accurate Quantum Logic Gates by Spin Echo in Rydberg Atoms.

Phys. Rev. Applied 10, 034006 (2018).

 

11. Xiao-Feng Shi.

Deutsch, Toffoli, and CNOT Gates via Rydberg Blockade of Neutral Atoms.

Phys. Rev. Applied 9, 051001 (2018).

 

10. Xiao-Feng Shi and T. A. B. Kennedy.

Simulating magnetic fields in Rydberg-dressed neutral atoms.

Phys. Rev. A 7, 97 033414 (2018).

 

9. Xiao-Feng Shi.

Universal Barenco quantum gates via a tunable noncollinear interaction.

Phys. Rev. A 7, 97 032310 (2018).

 

8. Xiao-Feng Shi.

Rydberg Quantum Gates Free from Blockade Error.

Phys. Rev. Applied 7, 064017 (2017).
 

7. Xiao-Feng Shi and T. A. B. Kennedy.

Annulled van der Waals interaction and fast Rydberg quantum gates.

Phys. Rev. A 95, 043429 (2017).
 

6. Xiao-Feng Shi, P. Svetlichnyy, and T. A. B. Kennedy.

Spin–charge separation of dark-state polaritons in a Rydberg medium.

J. Phys. B 49, 074005 (2016).

Highlighted in: Special Issue on Rydberg atom physics
 

5. Xiao-Feng Shi, F. Bariani, and T. A. B. Kennedy.

Entanglement of neutral-atom chains by spin-exchange Rydberg interaction. 

Phys. Rev. A 90, 062327 (2014).
 

4. Xiao-Feng Shi.

Nuclear spin polarization in a single quantum dot pumped by two laser beams.

Phys. Rev. B 87, 195318 (2013).
 

3. Xiao-Feng Shi, Yan Chen, and J. Q. You.

Exotic phase diagram of a topological quantum system.

Phys. Rev. B 82, 174412 (2010).
 

2. J. Q. You, Xiao-Feng Shi, Xuedong Hu, and Franco Nori.

Quantum emulation of a spin system with topologically protected ground states using superconducting quantum circuits.

Phys. Rev. B 81, 014505 (2010).
 

1. Xiao-Feng Shi, Yue Yu, J. Q. You, and Franco Nori.

Topological quantum phase transition in the extended Kitaev spin model.

Phys. Rev. B. 79, 134431 (2009).

 

Collaboration on biophysics:

3. Yan Lu, Xiao-Feng Shi, Phuong H. Nguyen, Fabio Sterpone, Freddie R. Salsbury, Jr., and Philippe Derreumaux.

Amyloid-β(29–42) Dimeric Conformations in Membranes Rich in Omega-3 and Omega-6 Polyunsaturated Fatty Acids.

The Journal of Physical Chemistry B 2019, 123 (12), 2687-2696.

 

2. Yan Lu, Xiao-Feng Shi, Freddie R. Salsbury Jr., and Philippe Derreumaux.

Influence of electric field on the amyloid-β(29-42) peptides embedded in a membrane bil[ant]ayer.

J. Chem. Phys. 148, 045105 (2018).

 

1. Yan Lu, Xiao-Feng Shi, Freddie R. Salsbury Jr., and Philippe Derreumaux.

Small static electric field strength promotes aggregation-prone structures in amyloid-β(29-42).

J. Chem. Phys. 146, 145101 (2017).