蔡建明发布者：huake 发布时间：2015-06-02 18:06 浏览次数：次编辑

个人信息

姓名：蔡建明
职称：教授
电 子 邮箱：jianmingcai@hust.edu.cn
办 公 地址：科技楼北813
主 页：http://www.quantum-hust.com/

个人简历

蔡建明，男，1981年11月出生，华中科技大学物理学院教授。2007年6月获中国科学技术大学理学博士。 2007年10月至2014年9月先后在奥地利因斯布鲁克学、奥地利科学院量子光学与量子信息研究所（Lise Meitner Fellowship）以及德国乌尔姆大学（EU Marie Curie Fellowship）从事研究工作；2014年10月加入华中科技大学物理学院，入选国家“****”青年人才项目和湖北省“百人计划”（第五批）。

长期从事量子信息、量子模拟、量子传感与测量、量子生物等量子技术相关领域的研究，并取得了一系列成果；目前致力于发展新型的量子技术，尤其是基于金刚石的量子传感技术，并探索其在物理、材料、生物、医学方面的应用。迄今在Nature Physics, Nature Photonics, Nature Communications, Physical Review Letters, Nano Letters，Phys. Rev. A等国际物理期刊上发表论文 30余篇；担任Nature Communications, Physical Review Letter, Physical Review X, Physical Review A, Physical Review B, New Journal of Physics，Scientific Reports等国际期刊审稿人。

代表性论文

1. Hybrid sensors based on color centers in diamond and piezoactive layers, J.-M. Cai, F. Jelezko, M. B. Plenio, NatureCommunications 5, 4065 (2014).

2. Nuclear magnetic resonance spectroscopy with single spin sensitivity,C. Müller, X. Kong, J.-M. Cai, K. Melentijevi?, A. Stacey, M. Markham, D. Twitchen, J. Isoya, S. Pezzagna, J. Meijer, J. Du, M. Plenio, B. Naydenov,L. Mcguinness,F. Jelezko,NatureCommunications, 5, 4703 (2014).

3. A large-scale quantum simulator on diamond surface at roomtemperature,J.-M. Cai, Alex Retzker, Fedor Jelezko, Martin B. Plenio, Nature Physics 9, 168-173 (2013).

4. Detection of a few metallo-protein molecules using color centers in nanodiamonds, A. Ermakova, G. Pramanik, J.-M. Cai,G. Algara-Siller, U. Kaiser, T. Weil, Y.-K. Tzeng , H. C. Chang , L. P. McGuinness, M. B. Plenio, B. Naydenov, and F.Jelezko, Nano Lett. 13 (7), 3305-3309 (2013), Highlighted in: Physics World, ScienceDaily.

5. Detecting and polarizing nuclear spins with double resonance on a single electron spin, P. London, J. Scheuer, J.-M.Cai, I. Schwarz, A. Retzker, M.B. Plenio, M. Katagiri, T. Teraji, S. Koizumi, J. Isoya,R. Fischer, L. P. McGuinness, B.Naydenov, F. Jelezko, Phys. Rev. Lett. 111, 067601 (2013).

6. Diamond based single molecule magnetic resonance spectroscopy, J.-M. Cai, F. Jelezko, M. B. Plenio, A. Retzker, New J.Phys. 15, 013020 (2013).

7. Chemical compass model for avian magnetoreception as a quantum coherent device, J.-M. Cai, M. B. Plenio, Phys. Rev.Lett. 111, 230503 (2013), Featured as Cover Story.

8. Quantum limits for the magnetic sensitivity of a chemical compass, J.-M. Cai, Filippo Caruso, Martin B. Plenio, Phys.Rev. A 85, 040304 (Rapid Communication) (2012).

9. Quantum probe and design for a chemical compass with magnetic nanostructures, J.-M. Cai, Phys. Rev. Lett. 106, 100501(2011).

10. Experimentalmeasurement-based quantum computing beyond the cluster-state model,W.-B. Gao, X.-C. Yao, J.-M. Cai, H. Lu, P. Xu, T. Yang, C.-Y. Lu, Y.-A. Chen, Z.-B. Chen, J.-W. Pan, Nature Photonics 5, 117 (2011).

11. Universal quantum computer from a quantum magnet,J.-M. Cai, A. Miyake, W. Dur, H. J. Briegel, Phys. Rev. A 82, 052309(2010).

12. Quantum control and entanglement in a chemical compass, J.-M. Cai, G. G. Guerreschi, H. J. Briegel, Phys. Rev. Lett.104, 220502 (2010), Highlighted in: Physics, Science News, Phys.Org.

13. Dynamic entanglement in oscillating molecules and potential biological implications, J.-M. Cai, S. Popescu, H. J.Briegel, Phys. Rev. E 82, 021921 (2010), Highlighted in: Scientific American, Physics World.

14. Quantum computation in correlation space and extremalentanglement,J.-M. Cai, M. Van den Nest, W. Dur, A. Miyake, H. J. Briegel, Phys. Rev. Lett. 103, 050503 (2009).