个人简介
应祖建,研究员, 博士生导师。 1999年兰州大学理论物理专业博士学位(导师王顺金教授), 1999-2001年浙江大学博士后 (合作导师李有泉教授)、评为副研究员, 2002-2004年在巴西UFRGS大学和巴西物理研究中心(CBPF)做访问学者,2005-2018年先后在意大利萨莱诺大学、意大利罗马第一大学(Sapienza)、意大利国家研究院超导与创新材料器件研究所CNR-SPIN等单位做博士后和高级研究员, 2019.1加入兰州大学。 主要致力于纳米系统与自旋电子学、光与物质作用、强关联系统与凝聚态理论等领域的研究。
研究领域
研究量子系统与凝聚态理论,具体方向包括纳米系统与自旋电子学、光和物质相互作用、少体和多体系统的量子相变、强关联系统与密度泛函理论发展、冷原子、纳米金属颗粒、低维系统与可积模型、高温超导理论与现象学、全息理论与AdS/CFT 对应、关联动力学与代数动力学等。
近期论文
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[1] Z.-J. Ying, M. Cuoco, C. Ortix, and P. Gentile, Tuning pairing amplitude and spin-triplet texture by curving superconducting nanostructures, Phys. Rev. B (Rapid Communication) 96, 100506(R) (2017). [2] Z.-J. Ying, P. Gentile, C. Ortix, and M. Cuoco, Designing electron spin textures and spin interferometers by shape deformations, Phys. Rev. B (Rapid Communication) 94, 081406(R) (2016). [3] M. Liu, S. Chesi, Z.-J. Ying, X.S. Chen, H.-G. Luo, and H.-Q. Lin, Universal scaling and critical exponents of the anisotropic quantum Rabi model, Phys. Rev. Lett. (Editors' Suggestion) 119,220601 (2017). [4] Z.-J. Ying, M. Cuoco, C. Noce, and H.-Q. Zhou, Exact Solution for a Trapped Fermi Gas with Population Imbalance and BCS Pairing, Phys. Rev. Lett. 100, 140406 (2008). [5] Z.-J. Ying, V. Brosco, G. M. Lopez, D. Varsano, P. Gori-Giorgi, and J. Lorenzana, Anomalous scaling and breakdown of conventional density functional theory methods for the description of Mott phenomena and stretched bonds, Phys. Rev. B 94, 075154 (2016). [6] Z.-J. Ying*, V. Brosco, J. Lorenzana, Solving lattice density functionals close to Mott regime, Phys. Rev .B 89, 205130 (2014). [7] Z.-J. Ying, M. Cuoco, C. Noce, and H.-Q. Zhou, Coexistence of strong pairing correlations and itinerant ferromagnetism arising from spin asymmetric bandwidths: A reduced BCS model study, Phys. Rev. B 78, 104523 (2008). [8] Z.-J. Ying*, M. Liu, H.-G. Luo*, H.-Q. Lin*, and J. Q. You, Ground-state phase diagram of the quantum Rabi model, Phys. Rev. A 92, 053823 (2015). [9] Z.-J. Ying, M. Cuoco, C. Noce, and H.-Q. Zhou, Coexistence of spin polarization and pairing correlations in the metallic grains, Phys. Rev. B 74, 012503 (2006). [10] Z.-J. Ying, M. Cuoco, C. Noce, and H.-Q. Zhou, Field response of metallic grain with magnetic and pairing correlations, Phys. Rev. B 74, 214506 (2006). [11] Z.-J. Ying, M. Cuoco, C. Noce, and H.-Q. Zhou, Competition between magnetic and superconducting pairing exchange interactions in confined systems, Phys. Rev. B 76, 132509 (2007). [12] M. Cuoco, P. Gentile, C. Noce, A. Romano, Z.-J. Ying, and H.-Q. Zhou, Is the nature of itinerant ferromagnetism playing a role in the competition between spin polarization and singlet pair correlations? J. Phys.: Condens. Matter 21, 254203 (2009). [13] Z.-J. Ying, M. Cuoco, C. Noce, and H.-Q. Zhou, Phase diagram and deformed phase separation for a trapped Fermi gas with population imbalance and BCS pairing interaction, Eur. Phys. J. B 78, 43 (2010). [14] H.-Q. Zhou, Z.-J. Ying, M. Cuoco, C. Noce, Universal scaling and pairing symmetry for high-temperature cuprate superconductors, arXiv:1002.4281 [15] J. Lorenzana, Z.-J. Ying, V. Brosco, Density-functional theory with adaptive pair density: The Gutzwiller approximation as a density functional, Phys. Rev. B 86, 075131 (2012). [16] V. Brosco, Z.-J. Ying, J. Lorenzana, (作者同等贡献) Exact exchange-correlation potential of an Ionic Hubbard model with a free surface, Sci. Rep. 3, 2172 (2013). [17] M. Liu, Z.-J. Ying, J.-H. An, and H.-G. Luo, Mean photon number dependent variational method to the Rabi model, New J. Phys. 17, 043001 (2015). [18] M. Liu, Z.-J. Ying, J.-H. An, H.-G. Luo, and H.-Q. Lin, The asymmetric quantum Rabi model in the polaron picture, J. Phys. A: Math. Theor. 50(8), 084003 (2017). [19] V. Brosco, Z.-J. Ying, and J. Lorenzana, Strong parameter renormalization from optimum lattice model orbitals, Phys. Rev. B 95, 035121 (2017). [20] L. Cong, X.-M. Sun, G.-Y. Li, M. Liu, Z.-J. Ying*, and H.-G. Luo*, Frequency-renormalized Multipolaron Expansion for the Quantum Rabi Model, Phys. Rev. A 95, 063803 (2017).