1. 国家自然科学基金外国学者研究基金项目 |
2026.01.01~ 2026.12.31,负责人 |
2. 深圳技术大学新引进高精尖缺人才科研项目 |
2026.01.01~ 2028.12.31,负责人 |
3. 欧洲量子旗舰计划: PASQUANS2——大规模可编程原子量子模拟2.1 |
2023.04~2026.3,意大利国家研究委员会-国家光学研究所(INO-CNR)合作单位负责人 |
4. European ERANET - QUANTERA计划(欧洲研究区量子技术合作计划):MENTA——原子系统中多体纠缠的可获取量化指标 |
2022.04~ 2026.03,意大利国家研究委员会-国家光学研究所(INO-CNR)合作单位负责人 |
5. 欧盟Horizon 2020:QOMBS——量子激光频率梳中的量子模拟与纠缠研究 |
2018.10~ 2022.07,负责人 |
6. 欧盟项目:USOQS ——基于量子相干与纠缠体系的超稳定光学振荡器 |
2018.06.01~2021.05.31,意大利国家研究委员会-国家光学研究所(INO-CNR)合作单位负责人 |
7. European ERANET - QUANTERA计划(欧洲研究区量子技术合作计划):CEBBEC——玻色–爱因斯坦凝聚体中EPR与Bell量子关联调控 |
2018.03 ~2022.05,意大利国家研究委员会-国家光学研究所(INO-CNR)合作单位负责人 |
8. 意大利MIUR(意大利教育、大学与科研部)计划:INTERFERATOM ——用于超高灵敏测量及新型引力波探测器构建的原子干涉仪 |
2015.09~2018.09,意大利国家研究委员会-国家光学研究所(INO-CNR)合作单位负责人 |
9. 欧盟项目:QIBEC——基于玻色–爱因斯坦凝聚体的量子干涉测量 |
2011.10~2015.07,负责人 |
代表性论文:
1. Giulio Biagioni, Nicolò Antolini, Beatrice Donelli, Luca Pezzè, Augusto Smerzi*, Marco Fattori, Andrea Fioretti, Carlo Gabbanini, Massimo Inguscio, Luca Tanzi, Giovanni Modugno*, “Measurement of the superfluid fraction of a supersolid by Josephson effect”, Nature 629,773 (2024) *Corresponding authors
2. A Smerzi, “Entanglement with tweezed molecules”, Science 382, 1118 (2023)
3. M Malitesta, A Smerzi, L Pezzè, “Distributed quantum sensing with squeezed-vacuum light in a configurable array of Mach-Zehnder interferometers”, Phys. Rev A108 (3), 032621 (2023)
4. M. Gessner and A. Smerzi, “Hierarchies of Frequentist Bounds for Quantum Metrology: From Cramér-Rao to Barankin”, Phys.Rev.Lett. 130, 260801 (2023)
5. V Gebhart, A Smerzi, “Extending the fair sampling assumption using causal diagrams”, Quantum 7, 897 (2023)
6. M Hetzel, et al.,” Tomography of a number-resolving detector by reconstruction of an atomic many-body quantum state”, Phys.Rev.Lett. 131, 260601 (2023)
7. L Lepori, A Trombettoni, D Giuliano, J Kombe, J Yago Malo, A Daley, A. Smerzi, M. Chiofalo, “Can multipartite entanglement be characterized by two-point connected correlation functions?“, J. Phys. A: Math. Theor. 56 305302 (2023)
8. R Corgier, M Malitesta, A Smerzi, L Pezzè “Quantum-enhanced differential atom interferometers and clocks with spin-squeezing swapping”, Quantum 7, 965 (2023).
9. I Alonso et al., “Cold atoms in space: community workshop summary and proposed road-map”, I Alonso, C Alpigiani,EPJ Quantum Technology 9 (1), 1-55
10. V Gebhart, A Smerzi, “Coincidence postselection for genuine multipartite nonlocality: Causal diagrams and threshold efficiencies”, Physical Review A 106 (6), 062202 (2022)
11. T Favalli, A Smerzi, ”A model of Non-Relativistic Quantum Spacetime”, AVS Quantum Science 4 (4), 044403 (2022)
12. I. Alonso et al., “Cold Atoms in Space: Community Workshop Summary and Proposed Road-Map”, EPJ Quantum Technology 9, 1 (2022)
13. W. Li, S Wu, A Smerzi, L Pezzè, “Improved absolute clock stability by the joint interrogation of two atomic ensembles” Physical Review A 105 (5), 053116 (2022)
14. T. Favalli and A. Smerzi, “Peaceful coexistence of thermal equilibrium and the emergence of time”, Phys. Rev.D 105, 2 (2022)
15. S. Nolan, A. Smerzi and L. Pezzè, “A machine learning approach to Bayesian parameter estimation”, NPJ QUANTUM INFORMATION 7,169 (2021)
16. S. Nolan, L. Pezzè and A. Smerzi, “Frequentist parameter estimation with supervised learning”, AVS Quantum Science 3 (2021)
17. M. Gessner, L. Pezze and A. Smerzi, “Efficient entanglement criteria for discrete, continuous, and hybrid variables”, Phys.Rev.A 104, 059904 (2021)
18. R. Corgier, N. Gaaloul, A. Smerzi and L. Pezzè, “Delta-Kick Squeezing” Phys. Rev. Lett. 127, 183401 (2021)
19. L. Pezzè and A. Smerzi, “Quantum Phase Estimation Algorithm with Gaussian Spin States”, PRX QUANTUM 2, 040301 (2021)
20. V. Gebhart, L. Pezzè and A. Smerzi, “Genuine Multipartite Nonlocality with Causal-Diagram Postselection”, Phys. Rev. Lett. 127, 140401 (2021)
21. A. Trombettoni, F. Scazza, F. Minardi, G. Roati, F. Cappelli, L. Consolino, A. Smerzi, P. De Natale, “Quantum Simulating the Electron Transport in Quantum Cascade Laser Structures”, Advanced Quantum Technologies, 2100044 (2021)
22. V. Gebhart, A. Smerzi, L. Pezzè, “Bayesian Quantum Multiphase Estimation Algorithm”, Phys.Rev.Applied16, 014035 (2021)
23. M. Yin, M. Wang, T. Lu, X. Li, T. Wang, Y. Zhang, X. W. Li, A. Smerzi and H. Chang, “Rabi Spectroscopy and Sensitivity of a Floquet Engineered Optical Lattice Clock”, Chin. Phys. Lett 38, 073201 (2021)
24. P. Feldmann, C. Klempt, A. Smerzi, L. Santos and M. Gessner, “Interferometric Order Parameter for Excited-State Quantum Phase Transitions in Bose-Einstein Condensates”, Phys.Rev.Lett.126, 230602 (2021)
25. R. Corgier, L. Pezzè and A. Smerzi, “Nonlinear Bragg interferometer with a trapped Bose-Einstein condensate”, Phys.Rev. A103, L061301 (2021)
26.Sheng-Chang Li, L. Pezzè and A. Smerzi, “Multiparticle entanglement dynamics of quantum chaos in a Bose-Einstein condensate”, Phys. Rev. A103, 052417 (2021)
27. Z. Ren, W. Li, A. Smerzi and M. Gessner, “Metrological Detection of Multipartite Entanglement from Young Diagrams”, Phys.Rev.Lett. 126, 080502 (2021)
28. V. Gebhart, A. Pezzè and A. Smerzi, “Quantifying computational advantage of Grover's algorithm with the trace speed”, Scientific Reports, 1288 (2021)
29. L. Pezzè and A. Smerzi, “Heisenberg-Limited Noisy Atomic Clock Using a Hybrid Coherent and Squeezed State Protocol”, Phys. Rev. Lett. 125, 210523 (2020)
30. T. Favalli and A. Smerzi, “Time observable in a timeless Universe”, Quantum, 4 (2020)
31. M. Gessner, A. Smerzi and L. Pezzè, “Multiparameter squeezing for optimal quantum enhancements in sensor networks”, Nature Communications 11, 3817 (2020)
32. D. P. Pires, A. Smerzi, and T. Macrì, “Relating relative Rényi entropies and Wigner-Yanase-Dyson skew information to generalized multiple quantum coherences”, Phys. Rev. A102, 012429 (2020)
