杨垂平
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| 姓名 | 杨垂平 | 性别 | 男 | 出生 年月 | 1964.10 | |||
| yangcp@hznu.edu.cn | 职称 | 教授 | ||||||
| 学科专业(一级学科/二级学科) | 物理学/凝聚态物理、光学 | 研究方向 | 量子信息、量子计算、量子光学 | |||||
| 个人简历 | 2011年浙江省“千人计划”入选者, 浙江省特聘专家,杭州市特聘专家,杭州市量子信息和量子光学创新团队负责人,浙江省物理学会理事,中国物理学会量子光学专业委员会委员。 学习经历: 1997.2-1999.12 中国科学技术大学物理系,光学专业(读博士,导师:郭光灿 院士)读博士期间,获中国科学技术大学郭沫若奖学金。 1987.9-1989.1 山西大学物理系,光电子专业(读研究生) 1981.9-1984.7 江西上饶师范学院物理系,物理专业(上大学) 主要工作经历: 2010.6至今 杭州师范大学理学院物理系(教授) 2009.4-2010.6 美国密西根大学(Research Fellow)、日本理化学研究所(客员 研究员) 2008.7-2008.10 美国加州大学(尔湾分校)物理天文系(Assistant Project Scientist) 2006.7-2008.6 美国卡耐基梅隆大学物理系(Senior visiting scholar) 2001.9-2006.6 美国堪萨斯大学天文物理系(Research Associate) 2000.3-2001.8 美国阿肯色大学物理系(Postdoctoral Research Associate) 1993.7-1997.2 江西上饶师范学院物理系(教师) | |||||||
| 教学情况 | 承担的本科生教学工作:大学物理、大学物理B、基础物理学(双语教学) 承担的研究生教学工作:量子信息、量子光学 | |||||||
| 科研情况 | 一、研究领域为固态量子信息、量子计算和量子光学。目前主要研究兴趣为:(i)量子信息处理在凝聚态物理超导固态系统中的物理实现,(ii)量子信息隐形传输和量子网络非局域操作,(iii)量子纠错和固态系统中消相干控制,(iv) 基于线性光学系统的量子光学问题研究。至今已有近60篇论文发表在《Physical Review A》、《Optics Letters》、《Scientific Report》、《New Journal of Physics》、《Physical Review Letters》等国际SCI核心刊物上(49篇为第一作者、独立作者或通讯作者),发表的论文被他人SCI广泛引用。2010年回国至今,主持国家自然科学基金面上项目2项、浙江省自然科学基金重点项目1项、国家重点实验室开放课题2项、杭州市量子信息和量子光学创新团队项目1项。自2006年以来至今,长期担任美国物理学会Physical Review A, B和Physical Review Letters等论文审稿人。 二、国际合作与交流情况: 长期与国际同行固态超导量子计算专家F. Nori 教授(日本)和韩思远教授(美国)等有着密切的合作与交流。 三、代表性学术论文: 1. [u]Chui-Ping Yang,[/u] Shih-I Chu, and Siyuan Han, “Quantum information transfer and entanglement with SQUID qubits in cavity QED: A dark-state scheme with tolerance for nonuniform device parameter”, Physical Review Letters 92, 117902 (2004). 2. [u]Chui-Ping Yang,[/u] Qi-Ping Su, and Shi-Biao Zhang,“Single-step implementation of a multiple-target-qubit controlled phase gate without need of classical pulses”,Optics Letters 39, 3312 (2014). 3. Qi-Ping Su, [u]Chui-Ping Yang,[/u] and Shi-Biao Zhang, “Fast and simple scheme for generating NOON states of photons in circuit QED”, Scientific Report 4,3898 (2014). 4. [u]Chui-Ping Yang,[/u] Qi-Ping Su, and Franco Nori, "Entanglement generation and quantum information transfer between spatially-separated qubits in different cavities", New Journal of Physics 15, 115003 (2013). 5. [u]Chui-Ping Yang,[/u] Qi-Ping Su, Shi-Biao Zheng, and Siyuan Han, “Generating entanglement between microwave photons and qubits in multiple cavities coupled by a superconducting qutrit”, Physical Review A 87, 022320 (2013). 6. [u]Chui-Ping Yang,[/u] Qi-Ping Su, and Siyuan Han, “Generation of Greenberger-Horne-Zeilinger entangled states of photons in multiple cavities via a superconducting qutrit or an atom through resonant interaction”, Physical Review A 86, 022329 (2012). 7. [u]Chui-Ping Yang,[/u] Qi-Ping Su, and Jin-Ming Liu, “Proposal for realizing a multiqubit tunable phase gate of one qubit simultaneously controlling n target qubits using cavity QED”, Physical Review A 86, 024301 (2012). 8. [u]Chui-Ping Yang,[/u] “Preparation of n-qubit Greenberger-Horne-Zeilinger entangled states in cavity QED: An approach with tolerance to nonidentical qubit-cavity coupling constants”, Physical Review A 83,062302 (2011). 9. [u]Chui-Ping Yang,[/u] “Quantum information transfer with superconducting flux qubits coupled to a resonator”, Physical Review A 82, 054303 (2010). 10. [u]Chui-Ping Yang,[/u] Shi-Biao Zheng, and Franco Nori, “Multiqubit tunable phase gate of one qubit simultaneously controlling n qubits in a cavity”, Physical Review A 82, 062326 (2010). 11. [u]Chui-Ping Yang,[/u] Yu-xi Liu, and Franco Nori, ““Phase gate of one qubit simultaneously controlling n qubits in a cavity”, Physical Review A 81, 062323 (2010). 12. [u]Chui-Ping Yang,[/u] and Siyuan Han , “Local measurement for a set of n -qubit maximally entangled states in cavity QED”, Physical Review A 75, 052315 (2007). 13. [u]Chui-Ping Yang,[/u] and Siyuan Han, “Rotation gate for a three-level superconducting quantum interference device qubit with resonant interaction”, Physical Review A 74, 044302 (2006). 14. [u]Chui-Ping Yang,[/u] and Siyuan Han, “ Realization of an n-qubit controlled-U gate with superconducting quantum interference devices or atoms in cavity QED”, Physical Review A 73, 032317 (2006). 15. [u]Chui-Ping Yang,[/u] and Siyuan Han, “n-qubit-controlled phase gate with superconducting quantum interference devices coupled to a resonator”, Physical Review A 72, 032311 (2005). 16. [u]Chui-Ping Yang,[/u], Shih-I Chu, and Siyuan Han, “Efficient many-party controlled teleportation of multiqubit quantum information via entanglement”, Physical Review A 70, 022329 (2004). 17. [u]Chui-Ping Yang,[/u] Shih-I Chu, and Siyuan Han, “Possible realization of entanglement, logical gates, and quantum-information transfer with superconducting-quantum-interference-device qubits in cavity QED”, Physical Review A 67, 042311 (2003). 18. [u]Chui-Ping Yang,[/u] Shih-I Chu, and Siyuan Han, "error prevention scheme with two pairs of qubits", Physical Review A 66, 034301 (2002). 19. [u]Chui-Ping Yang,[/u] and Julio Gea-Banacloche, "Three-qubit quantum error-correction scheme for collective decoherence", Physical Review A 63, 022311 (2001). 20. [u]Chui-Ping Yang,[/u] and Julio Gea-Banacloche, "Extracting an entangled state of n-t qubits from an n-qubit entangled state after errors at t sites", Physical Review A 64, 032309 (2001). | |||||||