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成果及论文

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    截止目前,夏岩科研小组成员已经在SCI收录期刊当中发表200余篇科研论文。以组内成员为第一作者的文章如下:


2024年                                                                                                                                                                  

  1. Y. Xiao, Y.-H. Kang, R.-H. Zheng, J. Song, Y.-H. Chen, and Y. Xia, "Effective nonadiabatic holonomic swap gate with Rydberg atoms using invariant-based reverse engineering," Phys. Rev. A 109, 062610 (2024).【中科院二区】

  2. J.-H. Wang, Z.C. Shi, Y.-H. Chen, J. Song, B.-H. Huang, and Y. Xia, "Robust quantum state manipulation by composite pulses in five-level systems," Adv. Quantum Technol. 2024, 2400080 (2024).【中科院二区】

  3. Y. Liu, Z-.C. Shi, J. Song, Y.-H. Chen, and Y. Xia, "Generation of multiparticle Knill-Laflamme-Milburn states in circuit QED via counter-rotating interactions," Adv. Quantum Technol. 2024, 2400009 (2024).【中科院二区】

  4. Z.-C. Shi, J.-T. Ding, Y.-H. Chen, J. Song, Y. Xia, X. X. Yi, and F. Nori, "Supervised learning for robust quantum control in composite-pulse systems," Phys. Rev. Applied 21, 044012 (2024).【中科院二区】

  5. Z. Chen, Z.-C. Shi, J. Song, B.-H. Huang, and Y. Xia, "Flexible preparation of the W state via the GRAPE algorithm in a nanoring-quantum-dot system," Laser Phys. Lett. 21 045204 (2024).

  6. Z.-C. Shi, J.-H. Wang, C. Zhang, J. Song, and Y. Xia, "Universal composite pulses for robust quantum state engineering in four-level systems," Phys. Rev. A 109, 022441 (2024).【中科院二区】

  7. D.-S. Li, Y.-H. Kang, Y.-H. Chen, Y. Liu, C. Zhang, Y. Wang, J. Song, and Y. Xia, "One-step parity measurement of 𝑁 cat-state qubits via reverse engineering and optimal control," Phys. Rev. A 109, 022437 (2024).【中科院二区】

  8. C. Zhang, L.-T. Shen, J. Song, Y. Xia, and Z.-C. Shi, "Three-state coherent control using narrowband and passband sequences," Opt. Exp. 32, 1188 (2024).【中科院二区】

  9. Y.-H. Chen, Y. Qiu, A. Miranowicz, N. Lambert, W. Qin, R. Stassi, Y. Xia, S.-B. Zheng, and F. Nori, "Sudden change of the photon output field marks phase transitions in the quantum Rabi model," Commun. Phys. 7, 5 (2024).【中科院一区】

  10. C. Zhang., Y. Liu, J. Song, Y. Xia, and Z.-C. Shi, "High-fidelity quantum gates via optimizing short pulse sequences in three-level systems," New J. Phys. 26, 013024 (2024). 【中科院二区】

2023年                                                                                                                                                                  

  1. D.-S. Li, Y.-H. Kang, Y.-H. Chen, Y. Wang, J. Song, and Y. Xia, "Efficient generation of Greenberger-Horne-Zeilinger states of N driven qubits mediated by a cavity," Quantum Inf. Process. 23, 2 (2023). 

  2. Y.-H. Kang, Z.-P. Lin, J.-Q. Yang, Y. Wang, J. Song, Z.-B. Yang, and Y. Xia, "Effective protocol for generating NOON states of resonator modes," Opt. Exp. 31, 42976 (2023).【中科院二区】

  3. R.-H. Zheng, S.-L. Su, J. Song, W. Li, and Y. Xia, "Thermal-dephasing-tolerant generation of mesoscopic superposition states with Rydberg dressed blockade," Phys. Rev. A 108, 042405 (2023).【中科院二区】

  4. W. Zheng, B.-H. Huang, X. Zhao, Y. Xia, "Quantum Entanglement Protection by Utilizing Classical Noises," Adv. Quantum Technol. 6, 2300150 (2023).【中科院二区】

  5. W.-W. Ding, Z.-P. Lin, Y.-H. Kang, Y. Liu, J. Song, B.-H. Huang, and Y. Xia, "Effective chirality discrimination via dissipation dynamics," Quantum Inf. Process. 22, 350 (2023).

  6. R.-H. Zheng, W. Ning, Y.-H. Chen, et al., "Observation of a Superradiant Phase Transition with Emergent Cat States," Phys. Rev. Lett. 131, 113601 (2023).【顶级期刊】

  7. Y. Li, Z.-P. Lin, X.-Y. Zhao, Y.-H. Chen, and Y. Xia, "One-step implementation of multiqubit controlled–controlled-Z gates with Rydberg atoms," Laser Phys. Lett. 20, 095205 (2023).

  8. Z.-C. Shi, C. Zhang, L.-T. Shen, J. Song, Y. Xia, and X. X. Yi, "Robust transitionless quantum driving: Concatenated approach," Phys. Rev. Res. 5, L032008 (2023).

  9. Y.-H. Kang, Z.-P. Lin, J.-Q. Yang, J. Song, and Y. Xia, "Near-perfect discrimination of chiral molecules based on steady states of a cavity mode," Phys. Rev. A 107, 053714 (2023).【中科院二区】

  10. Z.-C. Shi, Z. Chen, J.-H. Wang, Y. Xia, and X. X. Yi, "Effective dynamics and quantum state engineering by periodic kicks," Chin. Phys. B 32, 044210 (2023).【中科院二区】

  11. Y.-H. Kang, Y. Xiao, Z.-C. Shi, Y. Wang, J.-Q. Yang, J. Song, and Y. Xia, "Effective implementation of nonadiabatic geometric quantum gates of cat-state qubits using an auxiliary qutrit," New J. Phys. 25 033029 (2023).【中科院二区】

  12. Y. Liu, J. Song, W. Qin, Y.-H. Chen, and Y. Xia, "Generation of spin squeezing via a fully quantum degenerate parametric amplifier," Phys. Rev. A 107, 023724 (2023). 【中科院二区】

  13. Y. Xiao, Y.-H. Kang, R.-H. Zheng, Y. Liu, Y. Wang, J. Song, and Y. Xi, "Precise nondestructive parity measurement of artificial atoms using a superconducting resonator and homodyne measurement,"  Adv. Quantum Technol. 6, 2200192 (2023).【中科院二区】

  14. H.-N. Wu, C. Zhang, J. Song, Y. Xia, and Z.-C. Shi, "Composite pulses for optimal robust control in two-level systems," Phys. Rev. A 107, 023103 (2023).【中科院二区】

2022年                                                                                                                                                                  

  1. Y.-H. Kang, Z.-C. Shi, J. Song and Y. Xia, "Effective non-adiabatic holonomic quantum computation of cavity modes via invariant-based reverse engineering," Phil. Tran. Roy. Soc. A 380, 2239 (2022). 【中科院二区】

  2. Y.-H. Chen, A. Miranowicz, X. Chen, Y. Xia, and F. Nori, "Enhanced-fidelity ultrafast geometric quantum computation using strong classical drives," Phys. Rev. Appl. 18, 064059 (2022). 【中科院二区】

  3. D.-S. Li, Y.-H. Kang, X.-Y. Zhao, J. Song, and Y. Xia, "Fast and Robust Nondestructive Parity Meter for Cat-State Qubits via Reverse Engineering and Optimal Control," Ann. Phys. (Berlin) 535, 2200483 (2022). 中科院二区】

  4. S. Liu, Y.-H. Chen, Y. Wang, Y.-H. Kang, Z.-C. Shi, J. Song, and Y. Xia, "Generation of cat states by a weak parametric drive and a transitionless tracking algorithm," Phys. Rev. A 106, 042430 (2022).中科院二区】

  5. D.-L. Chen, Y.-H. Chen, Y. Liu, Z.-C. Shi, J. Song, and Y. Xia "Detecting a single atom in a cavity using the χ(2) nonlinear medium," Fron. Phys. 17, 52501 (2022).中科院二区】

  6. Y.-H. Kang, J. Song, and Y. Xia, "Error-resistant nonadiabatic binomial-code geometric quantum computation using reverse engineering," Opt. Exp. 47, 4099 (2022).中科院二区】

  7. Y.-H. Chen, R. Stassi, W. Qin, A. Miranowicz, and F. Nori, "Fault-Tolerant Multiqubit Geometric Entangling Gates Using Photonic Cat-State Qubits," Phys. Rev. Appl. 18, 024076 (2022). 中科院二区】

  8. Y. Wang, Y.-H. Kang, C.-S. Hu, B.-H. Huang, J. Song, and Y. Xia, "Quantum control with Lyapunov function and bang-bang solution in the optomechanics system," Fron. Phys. 17, 32501 (2022).中科院二区】

  9. R.-H. Zheng, W. Ning, Z.-B. Yang, Y. Xia, and S.-B. Zheng, "Demonstration of dynamical control of three-level open systems with a superconducting qutrit," New J. Phys. 24, 063031 (2022).【中科院二区】

  10. X. Zhao, Y.-h. Ma, and Y. Xia, "Noise-assisted quantum coherence protection in a hierarchical environment," Phys. Rev. A 105, 042217 (2022).【中科院二区】

  11. C. Zhang, Y. Liu, Z.-C. Shi, J. Song, Y. Xia, and S.-B. Zheng, "Robust population inversion in three-level systems by composite pulses," Phys. Rev. A 105, 042414 (2022).【中科院二区】

  12. W.-W. Ding, Y.-H. Kang, Y. Liu, J. Song, B.-H. Huang, and Y. Xia, "Chiral Discrimination via Shortcuts to Adiabaticity and Optimal Control," Ann. Phys. (Berlin) 534, 2100573 (2022).【中科院二区】

  13. S. Liu, J.-H. Shen, R.-H. Zheng, Y.-H. Kang, Z.-C. Shi, J. Song, and Y. Xia, "Optimized nonadiabatic holonomic quantum computation based on Förster resonance in Rydberg atoms," Fron. Phys. 17, 21502 (2022).【中科院二区】

  14. Y.-H. Kang, Y.-H. Chen, X. Wang, J. Song, Y. Xia, A. Miranowicz, S.-B. Zheng, and F. Nori, "Nonadiabatic geometric quantum computation with cat-state qubits via invariant-based reverse engineering," Phys. Rev. Res. 4, 013233 (2022).【中科院二区】

  15. Z.-C. Shi, C. Zhang, D. Ran, Y. Xia, R. Ianconescu, A. Friedman, X. X. Yi, and S.-B. Zheng, "Composite pulses for high fidelity population transfer in three-level systems," New J. Phys. 24, 023014 (2022).【中科院二区】

  16. Y. Xiao, R.-H. Zheng, Y. Liu, Y.-H. Kang, J. Song, and Y. Xia, "Accurate Parity Meter Based on Coherent State Measurement," Ann. Phys. (Berlin) 534, 2100461 (2022).【中科院二区】

2021年                                                                                                                                                                  

  1. Y.-Q. Wang, Y. Wang, X. Zhao, J. Song, and Yan Xia, "Accelerated high-fidelity Bell states generation based on dissipation dynamics and Lyapunov control," Quantum Inf. Process. 20, 404 (2021).

  2. Z.-C. Shi, Y.-H. Chen, W. Qin, Y. Xia, X. X. Yi, S.-B. Zheng, and F. Nori, "Two-level systems with periodic 𝑁-step driving fields: Exact dynamics and quantum state manipulations," Phys. Rev. A 104, 053101 (2021).【中科院二区】

  3. Z.-C. Shi, H.-N. Wu, L.-T. Shen, J. Song, Y. Xia, X. X. Yi, and S.-B. Zheng, "Robust single-qubit gates by composite pulses in three-level systems," Phys. Rev. A 103, 052612 (2021).【中科院二区】

  4. R.-H. Zheng, Y. Xiao, S.-L. Su, Y.-H. Chen, Z.-C. Shi, J. Song, Y. Xia, and S.-B. Zheng, "Fast and dephasing-tolerant preparation of steady Knill-Laflamme-Milburn states via dissipative Rydberg pumping," Phys. Rev. A 103, 052402 (2021).【中科院二区】

  5. B.-J. Li, S. Liu, Y. Wang, Y.-H. Kang, Z.-C. Shi, and Y. Xia, "Generation of three-atom singlet state with high-fidelity by Lyapunov control," Quantum Inf. Process. 60, 1416 (2021).【中科院二区】

  6. Y.-H. Chen, W. Qin, R. Stassi, X. Wang, and F. Nori, "Fast binomial-code holonomic quantum computation with ultrastrong light-matter coupling," Phys. Rev. Res. 3, 033275 (2021).

  7. Y. Wang, C.-S. Hu, Z.-C. Shi, B.-H. Huang, J. Song, and Y. Xia, "Simplified process of dissipation-based Greenberger–Horne–Zeilinger state generation with Lyapunov control," Opt. Commun. 483, 126671 (2021).

  8. Y. Liu, Z.-C. Shi, J. Song, and Y. Xia, "Generation of N-particle W State with Trapped Λ-Type Ions by Transitionless Quantum Driving," Ann. Phys. (Berlin) 533, 2000526 (2021).【中科院二区

  9. Y.-H. Chen, W. Qin, X. Wang, A. Miranowicz, and F. Nori, "Shortcuts to Adiabaticity for the Quantum Rabi Model: Efficient Generation of Giant Entangled Cat States via Parametric Amplification," Phys. Rev. Lett. 126, 023602 (2021).【顶级期刊】

  10. S.-B. Wang, J. Song, and Y. Xia, "Shortcuts to Adiabatic Passage for Fast Generation of Entangled States in Directly Coupled Bimodal-Mode Cavities," Int. J. Theor. Phys. 60, 200 (2021).

2020年                                                                                                                                                                  

  1. Y.-H. Kang, Z.-C. Shi, Y. Xia, and J. Song, "Robust Generation of Logical Qubit Singlet States with Reverse Engineering and Optimal Control with Spin Qubits," Adv. Quantum Technol. 3, 2000113 (2020).【中科院二区】

  2. Y.-H. Kang, Z.-C. Shi, Y. Xia, and J. Song, "Effective discrimination of chiral molecules in a cavity," Opt. Lett. 45, 4952 (2020).【中科院二区】

  3. Y.-H. Kang, Z.-C. Shi, Y. Xia, and J. Song, "Heralded atomic nonadiabatic holonomic quantum computation with Rydberg blockade," Phys. Rev. A 102, 022617 (2020).【中科院二区】

  4. D. Ran, W.-J. Shan, Z.-C. Shi, Z.-B. Yang, J. Song, and Y. Xia, "Generation of nonclassical states in nonlinear oscillators via Lyapunov control," Phys. Rev. A 102, 022603 (2020).【中科院二区】

  5. R.-H. Zheng, Y.-H. Kang, S.-L. Su, J. Song, and Y. Xia, "Robust and high-fidelity nondestructive Rydberg parity meter," Phys. Rev. A 102, 012609 (2020).【中科院二区】

  6. D. Ran, B. Zhang, Y.-H. Chen, Z.-C. Shi, Y. Xia, R. Ianconescu, J. Scheuer, and A. Gover, "Effective pulse reverse-engineering for strong field–matter interaction," Opt. Lett. 45, 3597 (2020).【中科院二区】

  7. S. Liu, D. Ran, Y.-H. Kang, Z.-C. Shi, J. Song, and Y. Xia, "Accelerated and Robust Generation of W State by Parametric Amplification and Inverse Hamiltonian Engineering," Ann. Phys. 532, 2000002 (2020).【中科院二区】

  8. Y.-H. Kang and Y. Xia, "Entanglement Creations and Quantum Gate Implementations of Spin Qubits With Lyapunov Control," IEEE J. Select. Top. Quan. Elect. 26, 6500107 (2020).【中科院二区】

  9. Z.-C. Shi, C. Zhang, L.-T. Shen, Y. Xia, X. X. Yi, and S.-B. Zheng, "Implementation of universal quantum gates by periodic two-step modulation in a weakly nonlinear qubit," Phys. Rev. A 101, 042314 (2020).【中科院二区】

  10. Y.-H. Kang, Z.-C. Shi, B.-H. Huang, J. Song, and Y. Xia, "Flexible scheme for the implementation of nonadiabatic geometric quantum computation," Phys. Rev. A 101, 032322 (2020).【中科院二区】

  11. D. Ran, W.-J. Shan, Z.-C. Shi, Z.-B. Yang, J. Song, and Y. Xia, "Pulse reverse engineering for controlling two-level quantum systems," Phys. Rev. A 101, 023822 (2020).【中科院二区】

  12. R.-H. Zheng, Y.-H. Kang, D. Ran, Z.-C. Shi, and Y. Xia, "Deterministic interconversions between the Greenberger-Horne-Zeilinger states and the 𝑊 states by invariant-based pulse design," Phys. Rev. A 101, 012345 (2020).【中科院二区】

2019年                                                                                                                                                                  

  1. D. Ran, W.-J. Shan, Z.-C. Shi, Z.-B. Yang, J. Song, and Y. Xia, "Manipulation of Multi-Level Quantum Systems via Unsharp Measurements and Feedback Operations," Ann. Phys. (Berlin) 531, 1900063 (2019).【中科院二区】

  2. S. Liu, D. Ran, Z.-C. Shi, J. Song, and Y. Xia, "Implementation of Controlled-NOT Gate by Lyapunov Control," Ann. Phys. 531, 1900086 (2019).【中科院二区】

  3. D. Ran, Z.-C. Shi, Z.-B. Yang, J. Song, and Y. Xia, "Error correction of quantum system dynamics via measurement–feedback control," J. Phys. B 52, 165501 (2019).

  4. Y.-H. Kang, Z.-C. Shi, B.-H. Huang, J. Song, and Y. Xia, "Deterministic conversions between Greenberger-Horne-Zeilinger states and 𝑊 states of spin qubits via Lie-transform-based inverse Hamiltonian engineering," Phys. Rev. A 100, 012332 (2019). 【中科院二区】

  5. Y.-H. Kang, Y.-H. Chen, Z.-C. Shi, B.-H. Huang, J. Song, and Y. Xia, "One-Step Implementation of N-Qubit Nonadiabatic Holonomic Quantum Gates with Superconducting Qubits via Inverse Hamiltonian Engineering," Ann. Phys. (Berlin) 531, 1800427 (2019).【中科院二区】

  6. Y. Wang, C.-S. Hu, Z.-C. Shi, B.-H. Huang, J. Song, and Y. Xia, "Accelerated and Noise-Resistant Protocol of Dissipation-Based Knill–Laflamme–Milburn State Generation with Lyapunov Control," Ann. Phys. (Berlin) 531, 1900006 (2019). 【中科院二区】

  7. Y.-H. Chen, W. Qin, and F. Nori, "Fast and high-fidelity generation of steady-state entanglement using pulse modulation and parametric amplification," Phys. Rev. A 100, 012339 (2019). 【中科院二区】

  8. L.-H. Ma, Y.-H. Kang, Z.-C. Shi, B.-H. Huang, J. Song, and Y. Xia, "Shortcuts to adiabatic for implementing controlled phase gate with Cooper-pair box qubits in circuit quantum electrodynamics system," Quantum Inf. Process. 18, 65 (2019).

  9. R.-H. Zheng, Y.-H. Kang, Z.-C. Shi, and Y. Xia, "Complete and Nondestructive Atomic Greenberger-Horne-Zeilinger-State Analysis Assisted by Invariant-Based Inverse Engineering," Ann. Phys. (Berlin) 531, 1800447 (2019).【中科院二区】

2018年                                                                                                                                                                  

  1. Z.-C. Shi, D. Ran, L.-T. Shen, Y. Xia, and X. X. Yi, "Quantum state engineering by periodical two-step modulation in an atomic system," Opt. Lett. 26, 34789 (2018).【中科院二区】

  2. L.-H. Ma, Y.-H. Kang, Z.-C. Shi, J. Song, and Y. Xia, "Shortcuts to adiabatic for implementing controlled-not gate with superconducting quantum interference device qubits," Quantum Inf. Process. 17, 292 (2018).

  3. B.-H. Huang, Y.-H. Kang, Z.-C. Shi, J. Song, and Y. Xia, "Shortcut Scheme for One-Step Implementation of a Three-Qubit Nonadiabatic Holonomic Gate," Ann. Phys. (Berlin) 530, 1800179 (2018).【中科院二区】

  4. D. Ran, W.-J. Shan, Z.-C. Shi, Z.-B. Yang, J. Song, and Y. Xia, "High fidelity Dicke-state generation with Lyapunov control in circuit QED system," Ann. Phys. 396, 44 (2018).

  5. S.-B. Wang, Y.-H. Chen, Q.-C. Wu, Z.-C. Shi, B.-H. Huang, J. Song, and Y. Xia, "Efficient implementation of arbitrary quantum state engineering in four-state system by counterdiabatic driving," Laser Phys. Lett. 15, 075201 (2018).

  6. R.-H. Zheng, Y.-H. Kang, Z.-C. Shi, and Y. Xia, "Complete and Nondestructive Atomic Bell-State Analysis Assisted by Inverse Engineering," Ann. Phys. (Berlin) 530, 1800133 (2018). 【中科院二区】

  7. Y.-H. Kang, Y.-H. Chen, Z.-C. Shi, B.-H. Huang, J. Song, and Y. Xia, "Nonadiabatic holonomic quantum computation using Rydberg blockade," Phys. Rev. A 97, 042336 (2018).【中科院二区】

  8. Y.-H. Chen, Z.-C. Shi, J. Song, Y. Xia, and S.-B. Zheng, "Accelerating Population Transfer in a Transmon Qutrit Via Shortcuts to Adiabaticity," Ann. Phys. (Berlin) 530, 1700351 (2018).【中科院二区】

  9. Y.-H. Chen, Z.-C. Shi, J. Song, Y. Xia, and S.-B. Zheng, "Accelerated and noise-resistant generation of high-fidelity steady-state entanglement with Rydberg atoms," Phys. Rev. A 97, 032328 (2018).【中科院二区】

  10. Y.-H. Kang, Y.-H. Chen, Z.-C. Shi, B.-H. Huang, J. Song, and Y. Xia, "Pulse design for multilevel systems by utilizing Lie transforms," Phys. Rev. A 97, 033407 (2018).【中科院二区】

  11. Y.-H. Chen, Z.-C. Shi, J. Song, and Y. Xia, "Invariant-based inverse engineering for fluctuation transfer between membranes in an optomechanical cavity system," Phys. Rev. A 97, 023841 (2018).【中科院二区】

  12. B.-H. Huang, Y.-H. Kang, Y.-H. Chen, Z.-C. Shi, J. Song, and Y. Xia, "Quantum state transfer in spin chains via shortcuts to adiabaticity," Phys. Rev. A 97, 012333 (2018).【中科院二区】

  13. Y.-H. Chen, Q.-C. Wu, B.-H. Huang, J. Song, Y. Xia, and S.-B. Zheng, "Improving Shortcuts to Non-Hermitian Adiabaticity for Fast Population Transfer in Open Quantum Systems," Ann. Phys. (Berlin) 530, 1700247 (2018).【中科院二区】

  14. Y.-F. Yang, Y.-H. Chen, Q.-C. Wu, Z.-C. Shi, J. Song, and Y. Xia, "High-fidelity generating multi-qubit W state via dressed states in the system of multiple resonators coupled with a superconducting qubit," Can. J. Phys. 96, 81 (2018).

2017年                                                                                                                                                                  

  1. X. Zhang, Y.-H. Chen, Z.-C. Shi, W.-J. Shan, J. Song, and Y. Xia, "Generation of three-qubit Greenberger–Horne–Zeilinger states of superconducting qubits by using dressed states," Quantum Inf. Process. 16, 309 (2017).

  2. Y.-H. Chen, Z.-C. Shi, J. Song, Y. Xia, and S.-B. Zheng, "Coherent control in quantum open systems: An approach for accelerating dissipation-based quantum state generation," Phys. Rev. A 96, 043853 (2017).【中科院二区】
  3. Q.-C. Wu, Y.-H. Chen, B.-H. Huang, Z.-C. Shi, J. Song, and Y. Xia, "Protecting Quantum State in Time-Dependent Decoherence-Free Subspaces Without the Rotating-Wave Approximation," Ann. Phys. (Berlin) 529, 1700186 (2017). 【中科院二区】
  4. Q.-C. Wu, B.-H. Huang, Y.-H. Chen, Z.-C. Shi, J. Song, and Y. Xia, "Perfect quantum state engineering by the combination of the counterdiabatic driving and the reverse-engineering technique," Ann. Phys. 385, 40 (2017).
  5. Y.-H. Kang, Y.-H. Chen, B.-H. Huang, J. Song, and Y. Xia, "Invariant-Based Pulse Design for Three-Level Systems Without the Rotating-Wave Approximation," Ann. Phys. (Berlin) 529, 170004 (2017).【中科院二区】
  6. Y.-H. Kang, Z.-C. Shi, B.-H. Huang, J. Song, and Y. Xia, "Fast and Robust Quantum Information Transfer in Annular and Radial Superconducting Networks," Ann. Phys. (Berlin) 529, 1700154 (2017).【中科院二区】
  7. D. Ran, Z.-C. Shi, J. Song, and Y. Xia, "Speeding up adiabatic passage by adding Lyapunov control,"  Phys. Rev. A 96, 033803 (2017).【中科院二区】
  8. B.-H. Huang, Y.-H. Kang, Y.-H. Chen, Q.-C. Wu, J. Song, and Y. Xia, "Fast quantum state engineering via universal SU(2) transformation," Phys. Rev. A 96, 022314 (2017).【中科院二区】
  9. Y.-H. Kang, Y.-H. Chen, Z.-C. Shi, B.-H. Huang, J. Song, and Y. Xia, "Complete Bell-state analysis for superconducting-quantum-interference-device qubits with a transitionless tracking algorithm," Phys. Rev. A 96, 022304 (2017).【中科院二区】
  10. Y.-H. Chen, Z.-C. Shi, J. Song, Y. Xia, and S.-B. Zheng, "Optimal shortcut approach based on an easily obtained intermediate Hamiltonian," Phys. Rev. A 95, 062319 (2017).【中科院二区】
  11. Y.-H. Kang, Q.-C. Wu, Y.-H. Chen, Z.-C. Shi, J. Song, and Y. Xia, "Accelerating adiabatic quantum transfer for three-level Λ-type structure systems via picture transformation," Ann. Phys. 379, 102 (2017).
  12. B.-H. Huang, Y.-H. Chen, Q.-C. Wu, J. Song, and Y. Xia, "Fast generating Greenberger–Horne–Zeilinger state via iterative interaction pictures," Laser Phys. Lett. 14, 039501 (2017).
  13. Y.-H. Kang, B.-H. Huang, P.-M. Lu, and Y. Xia, "Reverse engineering of a Hamiltonian for a three-level system via the Rodrigues' rotation formula," Laser Phys. Lett. 14, 025201 (2017).
  14. Y.-F. Yang, Y.-H. Chen, Q.-C. Wu, Y.-H. Kang, B.-H. Huang, and Y. Xia, "Rapid generation of a three-dimensional entangled state for two atoms trapped in a cavity via shortcuts to adiabatic passage," Quantum Inf. Process. 16, 15 (2017).
  15. X. Zhang, Y.-H. Chen, Q.-C. Wu, Z.-C. Shi, J. Song and Y. Xia, "Generation of three-qubit Greenberger–Horne–Zeilinger state of superconducting qubits via transitionless quantum driving," Laser Phys. 27, 015202 (2017).

2016年                                                                                                                                                                  

  1. Y.-H. Chen, Q.-C. Wu, B.-H. Huang, J. Song, and Y. Xia, "Arbitrary quantum state engineering in three-state systems via Counterdiabatic driving," Sci. Rep. 6, 38484 (2016). 
  2. Y.-H. Chen, B.-H. Huang, J. Song, and Y. Xia, "Transitionless-based shortcuts for the fast and robust generation of W states," Opt. Commun. 380, 140 (2016).
  3. Q.-C. Wu, Y.-H. Chen, B.-H. Huang, Y. Xia, and J. Song, "Reverse engineering of a nonlossy adiabatic Hamiltonian for non-Hermitian systems," Phys. Rev. A 94, 053421 (2016).【中科院二区】
  4. Y.-H. Kang, Y.-H. Chen, Z.-C. Shi, J. Song, and Y. Xia, "Fast preparation of 𝑊 states with superconducting quantum interference devices by using dressed states," Phys. Rev. A 94, 052311 (2016).【中科院二区】
  5. Y.-H. Kang, Y.-H. Chen, Q.-C. Wu, B.-H. Huang, J. Song, and Y. Xia, "Fast generation of W states of superconducting qubits with multiple Schrödinger dynamics," Sci. Rep. 6, 36737 (2016). 
  6. Y.-H. Kang, Y. Xia, and P.-M. Lu, "Two-photon phase gate with linear optical elements and atom–cavity system," Quantum Inf. Process. 15, 4521 (2016). 
  7. Q.-C. Wu, Y.-H. Chen, B.-H. Huang, J. Song, Y. Xia, and S.-B. Zheng, "Improving the stimulated Raman adiabatic passage via dissipative quantum dynamics," Opt. Exp. 24, 22847 (2016).【中科院二区】
  8. Z. Wang, Y. Xia, Y.-H. Chen, and J. Song, "Fast controlled preparation of two-atom maximally entangled state and N-atom W state in the direct coupled cavity systems via shortcuts to adiabatic passage," Euro. Phys. J. D 70, 162 (2016). 
  9. Y.-H. Kang, Y.-H. Chen, Q.-C. Wu, B.-H. Huang, Y. Xia, and J. Song, "Reverse engineering of a Hamiltonian by designing the evolution operators," Sci. Rep. 6, 30151 (2016). 
  10. W.-J. Shan, Y. Xia, Y.-H. Chen, and J. Song, "Fast generation of N-atom Greenberger–Horne–Zeilinger state in separate coupled cavities via transitionless quantum driving," Quantum Inf. Process. 15, 2359 (2016). 
  11. Y.-H. Chen, Y. Xia, Q.-C. Wu, B.-H. Huang, and J. Song, "Method for constructing shortcuts to adiabaticity by a substitute of counterdiabatic driving terms," Phys. Rev. A 93, 052109 (2016).【中科院二区】(该理论已被中科大实验小组实验实现)
  12. H.-J. Liu, Y. Xia, and J. Song, "Efficient hyperentanglement concentration for N-particle Greenberger–Horne–Zeilinger state assisted by weak cross-Kerr nonlinearity," Quantum Inf. Process. 15, 2033 (2016). 
  13. Z. Chen, Y.-H. Chen, Y. Xia, J. Song, and B.-H. Huang, "Fast generation of three-atom singlet state by transitionless quantum driving," chttps://www.nature.com/articles/srep22202
  14. Q.-Q. Chen and Y. Xia, "Joint remote preparation of an arbitrary two-qubit state via a generalized seven-qubit brown state," Laser Phys. 26, 015203 (2016).
  15. Z. Chen, Y.-H. Chen, and Y. Xia, "Deterministic generation of singlet state of N atoms in coupled cavities via adiabatic passage of a dark state," J. Mod. Phys. 63, 92 (2016).
  16. Y.-H. Kang, P.-M. Lu, and Y. Xia, "Effective preparation of the N-dimension spin Greenberger–Horne–Zeilinger state with quantum dots embedded in microcavities," J. Mod. Phys. 63, 1313 (2016)..
  17. Z. Wang, Y. Xia, Y.-H. Chen, and J. Song, "Fast CNOT gate via shortcuts to adiabatic passage," J. Mod. Phys. 63, 1943 (2016).

2015年                                                                                                                                                                  

  1. Y.-H. Chen, Y. Xia, J. Song, and Q.-Q. Chen, "Shortcuts to adiabatic passage for fast generation of Greenberger-Horne-Zeilinger states by transitionless quantum driving," Sci. Rep. 5, 15616 (2015). 
  2. H.-J. Liu, L.-L. Fan, Y. Xia, and J. Song, "Efficient entanglement concentration for partially entangled cluster states with weak cross-Kerr nonlinearity,"  Quantum Inf. Process. 14, 2909 (2015).
  3. Y.-H. Kang, Y. Xia, and P.-M. Lu, "Effective scheme for preparation of a spin-qubit Greenberger–Horne–Zeilinger state and W state in a quantum-dot-microcavity system," JOSAB 32, 1323 (2015).
  4. L.-C. Song, Y. Xia, and J. Song, "Experimentally optimized implementation of the Fredkin gate with atoms in cavity QED," Quantum Inf. Process. 14, 511 (2015). 
  5. Y.-H. Chen, Y. Xia, Q.-Q. Chen, and J. Song, "Fast and noise-resistant implementation of quantum phase gates and creation of quantum entangled states," Phys. Rev. A 91, 012325 (2015).【中科院二区】
  6. Y.-H. Kang, Y. Xia, and P.-M. Lu, "Efficient preparation of Greenberger–Horne–Zeilinger state and W state of atoms with the help of the controlled phase flip gates in quantum nodes connected by collective-noise channels," J. Mod. Opt. 62, 449 (2015).
  7. W.-J. Shan, Y.-H. Chen, Y. Xia, and J. Song, "One-step deterministic generation of N-atom Greenberger–Horne–Zeilinger states in separate coupled cavities via quantum Zeno dynamics," J. Mod. Opt. 62 1591 (2015).

2014年                                                                                                                                                                  

  1. Y.-H. Chen, Y. Xia, J. Song, and Q.-Q. Chen, "Shortcuts to adiabatic passage for multiparticles in distant cavities: applications to fast and noise-resistant quantum population transfer, entangled states' preparation and transition,"   Laser Phys. Lett. 11, 115201 (2014).
  2. M. Lu, Y. Xia, L.-T. Shen, and J. Song. "An effective shortcut to adiabatic passage for fast quantum state transfer in a cavity quantum electronic dynamics system," Laser Phys. 24, 105201 (2014).
  3. L.-L. Fan, Y. Xia, and J. Song, "Efficient entanglement concentration for arbitrary less-hyperentanglement multi-photon W states with linear optics," Quantum Inf. Process. 15, 1967 (2014).
  4. Y.-H. Kang, Y. Xia, and P.-M. Lu, "Efficient error correction for N-particle polarized entangled states distribution over the collective-noise channel exploiting time entanglement," Appl. Phys. B 116, 977 (2014). 
  5. Y. Xia, Y.-H. Kang, and P.-M. Lu, "Complete polarized photons Bell-states and Greenberger–Horne–Zeilinger-states analysis assisted by atoms," JOSAB 31, 2077 (2014).
  6. Y.-H. Chen, Y. Xia, and J. Song, "Deterministic generation of singlet states for -atoms in coupled cavities via quantum Zeno dynamics," Quantum Inf. Process. 13, 1857 (2014).
  7. Y.-H. Kang, Y. Xia, and P.-M. Lu, "Effective scheme for generation of N-dimension atomic Greenberger-Horne-Zeilinger states," Quantum Inf. Process. 13, 1255 (2014).
  8. L.-L. Fan, Y. Xia, and J. Song, "Complete hyperentanglement-assisted multi-photon Greenberger–Horne–Zeilinger states analysis with cross-Kerr nonlinearity," Opt. Commun. 317, 102 (2014)
  9. Y.-H. Chen, Y. Xia, Q.-Q. Chen, and J. Song, "Efficient shortcuts to adiabatic passage for fast population transfer in multiparticle systems," Phys. Rev. A 89, 033856 (2014).【中科院二区】
  10. Y.-H. Kang, Y. Xia, and P.-M. Lu, "Efficient and flexible protocol for implementing two-qubit controlled phase gates with cross-Kerr nonlinearity," J. Mod. Opt. 61, 175 (2014).
  11. M. Lu, Y. Xia, L.-T. Shen, J. Song, and N. B. An, "Shortcuts to adiabatic passage for population transfer and maximum entanglement creation between two atoms in a cavity," Phys. Rev. A 89, 012326 (2014).【中科院二区