王川

基本信息

王川
  • 职称:教授
  • 邮箱:wangchuan@bnu.edu.cn

教育背景

  • 2003年-2008年, 清华大学物理系 理学博士学位;
  • 1999年-2003年, 山东大学物理系 理学学士学位;

社会兼职

现任中国通信学会青工委委员,中国物理学会咨询工作委员会委员;担任EI期刊《科学通报》、SCI期刊《Frontiers of Physics》编委。

研究领域

量子计算,量子机器学习,微纳光学;

研究概况

本人主要从事量子计算和量子信息方面的研究工作,研究点集中在腔光力学、量子存储、量子中继等方面。至今在Physical Review A, Optics Express, Photonics Research, Nanophotonics等国内外学术期刊上发表SCI论文120余篇(第一作者及通讯作者论文80篇),论文被SCI引用3000余次。申请\授权发明专利6项。

研究课题

  • 国家自然科学基金优秀青年基金(2017-2019,主持);
  • 国家自然科学基金面上项目(2015-2019,主持);
  • 霍英东青年教师基金(2017-2019,主持);
  • 国家自然科学基金理论物理专项基金(2009,主持);
  • 中国博士后科研基金(2009-2011,主持);
  • 教育部博士点新教师基金(2009-2011,主持);
  • 国家自然科学基金青年基金(2013-2015,主持);
  • 北京市青年英才计划(2013-2015,主持);
  • 科技部量子调控重大研究计划项目课题(参与)。

奖励与荣誉

  • 2016年,获得国家自然科学基金委优秀青年基金项目
  • 2015年,北京高校青年物理教师教学基本功比赛二等奖
  • 2013年,研究成果获国家自然科学二等奖
  • 2011年,研究成果教育部高校优秀科研成果自然科学一等奖

学术成果

  • 1. Wang Tie-Jun*, Yang Guan-qun, Wang Chuan*, Control power of high-dimensional controlled teleportation. Physical Review A 101, 012323 (2020)
  • 2. Gao Yong-Pan, Liu Xiao-Fei, Wang Tie-Jun*, Cao Cong, Wang Chuan*. Photon excitation and photon blockade effects in optomagnonic microcavities. Physical Review A 100, 043831 (2019)
  • 3. Gao Yong-Pan, Cao Cong*, Duan Yuwen*, Liu Xiao-Fei, Wang Tie-Jun, Wang Chuan* Magnons scattering induced photonic chaos in the optomagnonic resonators. NanoPhotonics 9, 1953 (2019)
  • 4. Liu Xiao-Fei, Gao Yong-Pan, Cong Cao, Wang Tie-Jun, Wang Chuan*. Chiral microresonator assisted by Rydberg-atom ensembles. Physical Review A 98, 033824 (2018).
  • 5. Liu Xiao-Fei, Wang Tie-Jun, Long Guilu*, Wang Chuan*. Optothermal control of gains in erbium-doped whispering-gallery microresonators. NanoPhotonics 8, 127 (2018).
  • 6. Liu Xiao-Fei, Wang Tie-Jun, Wang Chuan*. Optothermal control of gains in erbium-doped whispering-gallery microresonators. Optics Letters, 43(2), 326-329(2018).
  • 7. Gao Yong-Pan, Wang Tie-Jun, Cong Cao, Wang Chuan*. Gap induced mode evolution under the asymmetric structure in a plasmonic resonator system. Photonics Research. 5, 113-118 (2017).
  • 8. Wang Tie-Jun, Mi Sichen, Wang Chuan*. Hyperentanglement purification using imperfect spatial entanglement. Opt. Express 25(3), 2969-2982 (2017)
  • 9. Gao Yong-Pan, Cao Cong, Wang Tie-Jun*, Zhang Yong, Wang Chuan* Cavity-mediated coupling of phonon and magnon. Physical Review A 96 (2), 023826 (2017)
  • 10. Cao Cong*, Duan Yuwen, Chen Xi, Wang Tie Jun, Zhang Ru*, Wang Chuan*. Implementation of single-photon quantum routing and decoupling using a nitrogen-vacancy center and a whispering-gallery-mode resonator-waveguide system Opt. Express, 25, 16931-16946 (2017)
  • 11. Wang Zhong-Xiao, Gao Yong-Pan, Wang Tie-Jun, and Wang Chuan*. The conversion of Gaussian steering using linear optics. Annalen der Physik. 1700328 (2017)
  • 12. Gao Yong-Pan, Wang Zhong-Xiao, Wang Tie-Jun, Wang Chuan* Optomechanically engineered phononic mode resonance. Optics Express 25, 26638-26650 (2017)
  • 13. He Ling-yan, Wang Tie-Jun*, Wang Chuan*. Construction of high-dimensional universal quantum logic gates using L system coupled with a whispering-gallery-mode microresonator. Optics Express, 24, 15429 (2016).
  • 14. Cao Cong, Wang Tie Jun, Zhang Ru, Wang Chuan*. Hyperconcentration of nonlocal entanglement of photons using photonic module. Annals of Physics, 369,128(2016).
  • 15. Wang Tie Jun, Wang Chuan*. High-efficient entanglement distillation from photon loss and decoherence. Optics Express. 23(24), 31550-31563(2015).
  • 16. Wang Tie-Jun, Liu Lei-Lei, Cao Cong, Zhang Ru, Wang Chuan*.One-step hyperentanglement purification and hyperdistillation with linear optics. Optics Express, 23,9284(2015)
  • 17. He Ling-yan, Wang Tie-Jun, Gao Yong-Pan, Cao Cong, Wang Chuan*. Discerning electromagnetically induced transparency from Autler-Townes splitting in plasmonic waveguide and coupled resonators system. Optics Express, 23(18), 23817 (2015).
  • 18. Wang Tie Jun, Wang Chuan*. Parallel quantum computing teleportation for spin qubits in spin-cavity coupled system. IEEE Journal of Selected Topics in Quantum Electronics. 21(3),1-7(2015)
  • 19. Qin Wei, Wang Chuan, Zhang Xiang-Dong, Protected quantum-state transfer in decoherence -free subspaces. Physical Review A 91, 042303 (2015).
  • 20. Wang Tie Jun, Wang Chuan*. Universal hybrid three-qubit quantum gates assisted by nitrogen-vacancy center coupled with whispering-gallery-mode microresonator Physical Review A 90, 052310 (2014)
  • 21. Wang Chuan*, Tie-jun Wang, Zhang Yong, Jiao Rong-zhen, Jin Guang-sheng, Concentration of entangled nitrogen-vacancy centers in decoherence free subspace. Optics Express 22, 1551-1559 (2014)
  • 22. Wang Chuan ,Shen Wei-Wei, Mi Si-Chen, Zhang Yong, Wang Tie-Jun*, Concentration and distribution of entanglement based on valley qubit system in Graphene. Science Bulletin. 60(23):2016 (2015)
  • 23. Cao Cong, Wang Chuan*, He Ling-yan, Zhang Ru. Atomic entanglement purification and concentration using coherent state input-output process in low-Q cavity QED regime. Optics Express 21, 4093 (2013).
  • 24. Wang Tie Jun, Cao Cong, Wang Chuan*. Linear-optical implementation of hyper-distillation from photon loss. Physical Review A 89, 052303 (2014)
  • 25. Qin Wei, Wang Chuan, Cao Ye, Long Guilu, Multiphoton quantum communication in quantum networks. Physical Review A 89, 062314(2014)
  • 26. Qin Wei, Wang Chuan, Long Guilu. High-dimensional quantum state transfer through a quantum spin chain. Physical Review A 87, 012339 (2013)
  • 27. Wang Chuan*, Zhang Yong, Jiao Rong-zhen, Jin Guang-sheng, Universal quantum controlled phase gate on photonic qubits based on nitrogen vacancy centers and microcavity resonators Optics Express 21, 19252-19260 (2013) .
  • 28. Wang Chuan*, Efficient entanglement concentration for partially entangled electrons using a quantum-dot and microcavity coupled system. Physical Review A 86, 012323 (2012)
  • 29. Wang Chuan*, Zhang Yong, Jin Guang Sheng. Entanglement purification and concentration of electron-spin entangled states using quantum dot spinsin optical microcavities. Physical Review A 84,032307 (2011)
  • 30. Wang Chuan*, Zhang Yong, Zhang Ru. Hybrid entanglement purification using quantum-dot and microcavity system. Optics Express 19, 256857 (2011).
  • 31. Xiao Li, Wang Chuan, Zhang Wei, Peng Jiangde, Huang Yidong, Long Guilu. Efficient strategy for sharing entanglement via noisy channels with doubly entangled photon pairs, Physical Review A 77, 042315 (2008)
  • 32. Wang Chuan, Deng Fu Guo, Li Yan Song, Liu Xiao Shu, Long Gui Lu. Quantum secure direct communication with high-dimension quantum superdense coding. Physical Review A 71 (4), 044305 (2005)