欢迎访问山西大学激光光谱研究所
肖连团
发布时间:2018-05-10 浏览:
肖连团  
所长、教授、博导  

  长江学者特聘教授,博士研究生导师,国家百千万人才工程入选者,教育部创新团队带头人。现任山西大学激光光谱研究所所长,量子光学与光量子器件国家重点实验室副主任。

     1989年山西大学物理系本科毕业, 2001年于山西大学光学专业获得博士学位。2001年11月至2002年12月,法国国家科学中心Cachan高等师范学院分子物理实验室博士后,研究单分子光子源的量子统计特性。2005年1月至4月,法国国家科学中心Aime Cotton实验室访问学者,进行冷分子光谱研究。2006年2月,美国Maryland大学物理系访问学者,研究超冷原子分子光谱。2008年4月至10月,在荷兰莱顿大学惠更斯实验室Orrit教授单分子光学小组进行低温单分子动力学方面的合作研究。2010年4月至6月,法国国家科学中心Cachan高等师范学院邀请教授(Invited Professor)。    

 

  

 办公地址:激光光谱研究所

 电子邮箱:xlt@sxu.edu.cn

 办公电话:0351-7010682

主持国家重点研发计划项目、国家高技术研究发展计划 (863计划)、973计划前期研究专项、国家自然科学基金等科研项目13项。在国际重要学术期 刊Phys. Rev. Lett.,  Laser Phys. Lett., Appl. Phy. Lett., Phys. Rev. A等和国内核心刊物上发表学术论文110余篇,获国家发明专利7项以及1项欧洲授权发明专利。获多项奖励,包括山西省自然科学一等奖两项、山西省科技进步二等奖两项,2005年被评为山西省青年学术带头人,2006年人选教育部新世纪优秀人才支持计划, 2009年被评为山西省高等学校中青年拔尖创新人才,2012年度教育部长江学者特聘教授。2015年入选国家百千万人才工程并享受国务院特殊津贴。

 

    主要学术兼职:

 

     全国光学青年学术论坛副主席;山西省青年科技协会副会长;济南量子技术研究院特聘咨询专家;西华大学“高性能科学计算”省重点实验室学术委员会委员等。任《Applied Physics Letters》、《Optics Communication》、《Applied Physics B》、《中国物理快报》等杂志审稿人。

 

近期代表性的论文:   

 

1.“Impedance self-matching ultranarrow linewidth fiber resonator by use of a tunable π phase-shifted FBG”,Scientific Reports (2017)7,1895.

2.“Enhanced biexciton emission from single quantum dots encased in N-type semiconductor nanoparticles”,Applied Physics Letters(2017) 111 (15),153106.

3.“Solar light assisted green synthesis of photoreduced graphene oxide for the highefficiency adsorption of anionic dyes”RSC Advances(2017) 7,53362.

4.“Versatile and scalable micropatterns on graphene oxide films based on laser induced fluorescence quenching effect”Optics Express(2017) 25(25), 31025.

5.“Modification of single molecule fluorescence using external fields”Frontiers of Physics (2017)12(5),128101(15).

6.“Stabilizingthe1550nmlasertoπ-phase-shiftedfiberBragggratingatsingle-photonlevel”,Laser Physics,(2016)26,105104(4).

7.“Suppressing the Fluorescence Blinking of Single Quantum Dots Encased in N-type Semiconductor Nanoparticles”,Scientific Reports,(2016)(6),32662(8).

8.“Two fluorescence lifetime components reveal the photo reduction dynamics of monolayer grapheneoxide”,Carbon,(2016)109,264-268.

9.“Atomic-Layered MoS2 as a Tunable Optical Platform”,Advanced Optical Materials,(2016)4,1429–1456.

10.“Experimental quantum securedirect communication with single photons”,Light:Science&Applications,(2016)5,e16144.

11.“An electric field induced reversible single-molecule fluorescence switch”, Chem. Comm., 2015, Vol.51, 7368.

12.“Observing and tuning the density distribution of localized states of monolayer graphene oxide by using external electric field”, Applied Physics Letters, 2015, Vol. 106, 131103.

13.“High visibility fluorescence imaging for nanoparticles based on acousto-optic time delay effect”, Sensors and Actuators B, 2015, Vol. 208, 464.

14.“Electron Transfer-Based Single Molecule Fluorescence as a Probe for Nano-Environment Dynamics”, Sensors, 2014, Vol.14, 2449.

15.“Electric  field induced fluorescence hysteresis  of single  molecules in poly   (methyl methacrylate) ”,    Applied Physics Letters, 2014, Vol.105, 153301.

16.“Direct measurement of DBR fiber laser linewidth based on the sidebands interference”,  Laser Phys. Lett., 2013, Vol. 10, 075007.

17.“Experimental observation of the lowest levels in the photoassociation spectroscopy of the 0-g purely-long-range state of Cs2”, Phys. Rev. A, 2013, Vol. 87, 030503(R).

18.“Single molecules probe the polarization dynamics of poly(methyl methacrylate) in external electric field”, Applied Physics Letters, 2012, Vol.100, 203118.  

19.“Electric Field Induced Fluorescence Modulation of Single Molecules in PMMA Based on Electron Transfer”, International Journal of Molecular Sciences, 2012, Vol. 13, 11130.  

20.“Detection efficiency enhancement of single-photon detector at 1.55-mm by using of single photons lock-in and optimal threshold”, Optics & Laser Technology 2012, Vol. 44, 1773.

21.“Direct measurement of laser-induced frequency shift rate of ultracold cesium molecules by analyzing losses of trapped atoms”, Applied Physics Letters, 2012, Vol. 101, 131114.

22.“Photoassociative formation of ultracold RbCs molecules in the (2) 3Π state”, Phys. Rev. A, 2012, Vol.85, 013401.

23.“Single-molecule interfacial electron transfer dynamics manipulated by an external electric current”, Phys. Chem. Chem. Phys., 2011, Vol.13, 13815.

24.“Single molecules reorientation reveals the dynamics of polymer glasses surface”,  Phys. Chem. Chem. Phys., 2010, Vol.12, 2308.

25.“Micron-Sized Structure in a Thin Glycerol Film Revealed by Fluorescent Probes”,  J. Phys. Chem. B, 2009, Vol.113, 15724.

26.“Arbitrarily copropagating superluminal and slow light by controllable one-photon detuning in trapped cold atoms”, Optics Express, 2008, Vol. 16, 4747.  

27.“The double dark resonance in a cold gas of Cs atoms and molecules”, Optics Express, 2008, Vol. 16, No. 20, 15870.

28.“Photon Statistical Measurement of Afterpulse Probability”,  International Journal of Modern Physics B, 2008, Vol. 22, No. 12, 1941.  

29.“Fast Recognise Single Molecules Based on Single Event Photon Statistics”, Phys. Rev. A, 2007, Vol.76, 063820.  

30.“Absolute frequency stabilization of a diode laser to cesium atom-molecular hyperfine  transitions via modulating molecules”, Applied Physics Letters, 2007, Vol. 91, 161101.  

31.“Tunable and frequency-stabilized diode laser using temperature-dependent energy pooling  fluorescence.” Applied Physics Letters, 2006, Vol.88, 231104.  

32.“Signal-to-noise ratio improvement of photon-counting using wavelength modulation  spectroscopy”,  Applied Physics Letters, 2006, Vol.89, 061102.  

33.“Single event photon statistics characterization of a single photon source in an imperfect detection system”, Journal of Luminescence, 2007, Vol.124, No.2, 286.  

34.“Laser offset-frequency locking against energy pooling fluorescence in thermal cesium vapor”, Measurement Science and Technology, (Rapid Communication), 2006, Vol.17, L1.  

35.“Intensity noise measurement of strongly attenuated laser diode pulses in the time domain”,  Eur. Phys. J. Appl. Phys. 2006, Vol.35, 117.  

36.“Frequency stabilization of an external-cavity diode laser with a thin Cs vapour cell”,  J.Phys D: Appl. Phys. 2004, Vol.37, 1316.

37.“Photon statistics measurement by use of single photon detection”, Chinese Science Bullitin, 2004, Vol. 49, 875.

38. “Effect of background noise on the photon statistics of triggered single molecules”, Chinese Physics Letter, 2004, Vol.21, 489.  

39.“Direct measurement of the photo statistics of a triggered single photon source”, Physical Review Letters,2002, Vol.89, 093601.

40.“Low-frequency wavelength modulation spectroscopy with the D2 transition of atomic Cs by use of an external-cavity diode laser”, Applied Optics,2000, Vol.39, No.6, 1049.

41.“Diffused band radiation of molecular potassium generated by energy-pooling effect”, Applied Physics B, 1999, Vol. 68, 727.  

42. Edited Book Chapter: “Time-gated Single Photon Counting Lock-in  Detection at 1550 nm Wavelength”, In: F. J. Duarte, Ed., LASER PULSE PHENOMENA AND APPLICATIONS, InTech, Janeza Trdine 9, 51000 Rijeka, Croatia, 2010, pp. 191-206.

43. Edited Book Chapter: “Single-Molecule Recognition and Dynamics with Pulsed Laser Excitation”, In: Igor Peshko, Ed., LASER PULSES –THEORY, TECHNOLOGY, AND APPLICATIONS, InTech, Janeza Trdine 9, 51000 Rijeka, Croatia, Oct. 2012, pp. 477-500.