Department of Physics
226 Physics Building
825 West Dickson Street
University of Arkansas
Fayetteville, AR 72701
P 4795752506
F 4795756595
Email: physics@uark.edu
Faculty
Min Xiao
Distinguished Professor
J. William Fulbright College of Arts & Sciences
(PHYS)Physics
Phone: 4795756568
Fax: 4795754580
Email: mxiao@uark.edu
2010 Adjunct Professor, School of Physics, Nanjing University, China
2006 21st Century Endowed Chair in Nanotechnology, University of Arkansas
2004 Distinguished Professor of Physics, University of Arkansas
19982004, Professor, Department of Physics, University of Arkansas
19951998, Associate Professor, Department of Physics, University of Arkansas
19901995, Assistant Professor, Department of Physics, University of Arkansas
19881990, Postdoctoral Fellow, Department of Physics, MIT
1988, Ph.D. in Physics, University of Texas at Austin
Research Interests:
Professor Min Xiao has worked on broad areas of physics research in the past 30 years, including quantum optics, nonlinear optics, atomic physics, micro/nanophotonics, and ultrafast dynamics of solidstate materials. Recently, he and his group members mainly work on the following research topics:
(1) Novel nonlinear optical properties in multilevel coherentlyprepared atomic media (experimental and theoretical)
In the past, his group has experimentally demonstrated electromagnetically induced transparency (EIT) [1,2] and its dispersion [3] properties using CW diode lasers with atoms in hot atomic vapor cell, EITmedium in an optical ring cavity [47], enhanced Kerr nonlinearity [810] and coexisting four & sixwave mixing processes [11,12] in multilevel coherentlyprepared atomic media. They have experimentally and theoretically studied nonlinear steadystate (such as optical bistability (OB) [1315], multistability [16,17], and lasing without inversion [18]), dynamical (such as optical instability [19], stochastic resonance [20], chaos [21], and alloptical switching [2225]), propagation (such as energy exchanging [26], solitons [27,28], and etc), beam interaction [29] and correlation [3033] properties in such atomic media.
In recent years, they have experimentally investigated interesting phenomena in opticallyinduced atomic lattice systems, such as discrete spatial diffraction [34], Talbot effect [35], paritytime symmetry and its breaking [36.37], and etc. In studying those effects, they have made use of the properties of EIT and laserinduced atomic coherence in various multilevel atomic systems when generating controllable loss and gain, as well as enhanced nonlinearity and modified dispersion. They have also theoretically investigated the formation of photonic bandgap & Floquet topological insulator [38] and related effects in multilevel atomic systems.
(2) Quantum dynamical processes in strongly interacting systems (theoretical)
In recent years, they have theoretically studied quantum dynamical processes in strongly interacting systems. The recently investigated problems include photonphoton interaction processes in Rydberg atomic ensembles [39,40], dynamic cooling and phonon laser [41,42] in optomechanical systems, macroscopic entangled light fields in coupled gainloss waveguides [43], propagation dynamics in fractional Schrodinger equations [44,45], and etc. The goal is to better understand the quantum and dynamical behaviors of interacting systems under the influence of quantum noises, and identify efficient ways to reduce decoherence and protect the quantum nature of the systems for potential applications.
(3) Micro/nanophotonics and ultrafast laser spectroscopy of novel materials
Working with colleagues at the School of Physics and College of Applied Science and Engineering, Nanjing University, China, Professor Xiao and his collaborators have been working on several experimental projects in the past few years. The four main areas of research at Nanjing University, China, are (a) Single molecule spectroscopy of quantum nanostructures; (b) Ultrafast/coherent laser spectroscopy of novel materials; (c) Quantum/nonlinear optical imaging of micro/nanostructures and enhanced sensing with quantum states of light; (d) HighQ optical microcavities and their applications. For references to those works, see List of Publications or information on website: http://optics.nju.edu.cn
References:
[1] "ElectromagneticallyInduced Transparency in LadderType, InhomogeneouslyBroadened Media: Theory and Experiment", J. GeaBanacloche, Y. Li, S. Jin, and Min Xiao, Phys. Rev. A 51, 576 (1995).
[2] "Electromagnetically Induced Transparency in a ThreeLevel LType System in Rubidium Atoms", Y. Li and Min Xiao, Phys. Rev. A 51, Rapid Communications, 2703(R), (1995).
[3] "Measurement of Dispersive Properties of Electromagnetically Induced Transparency in Rubidium Atoms", Min Xiao, Y. Li, S. Jin, and J. GeaBanacloche, Phys. Rev. Lett. 74, 666 (1995).
[4] “CavityLinewidth Narrowing via Electromagnetically Induced Transparency”, H. Wang, D.J. Goorskey, W.H. Burkett, and Min Xiao, Opt. Lett. 25, 1732 (2000).
[5] “Observation of Intracavity Electromagneticallyinduced Transparency and Polariton Resonances in a Dopplerbroadened Medium”, H. Wu, J. GeaBanacloche, and Min Xiao, Phys. Rev. Lett. 100, 173602 (2008).
[6] “Whitelight Cavity with Competing Linear and Nonlinear Dispersions”, H. Wu and Min Xiao, Phys. Rev. A 77, Rapid Communications, 031801(R) (2008).
[7] “Understanding Cavity Resonances with Intracavity Dispersion Properties”, Jiteng Sheng, H. Wu, M. Mumba, J. GeaBanacloche, and Min Xiao, Phys. Rev. A 83, 023829 (2011).
[8] “Nondegenerate FourWave Mixing in a DoubleL System under the Influence of Coherent Population Trapping”, B. L, W.H. Burkett, and Min Xiao, Optics Letters 23, 804 (1998).
[9] “Enhanced Kerr Nonlinearity via Atomic Coherence in a ThreeLevel Atomic System”, H. Wang, D. Goorskey, and Min Xiao, Phys. Rev. Lett. 87, 073601 (2001).
[10] “Modified selfKerr nonlinearity in a fourlevel Ntype atomic system”, Jiteng Sheng, X. Yang, H. Wu, and Min Xiao, Phys. Rev. A 84, 053820 (2011).
[11] “Opening Fourwave Mixing and Sixwave Mixing Channels via Dual Electromagnetically Induced Transparency Windows”, Y.P. Zhang, A.W. Brown, and Min Xiao, Phys. Rev. Lett. 99, 123603 (2007).
[12] “Temporal and Spatial Interference between Fourwave Mixing and Sixwave Mixing Channels”, Y. Zhang, U. Khadka, B. Anderson, and Min Xiao, Phys. Rev. Lett. 102, 013601 (2009).
[13] “Controlled Optical Bistability in a ThreeLevel Atomic System”, A. Joshi, A.W. Brown, H. Wang, and Min Xiao, Phys. Rev. A 67, Rapid Communications, 041801(R) (2003).
[14] “Hysteresis Loop with Controllable Shape and Direction in an Optical Ring Cavity”, A. Joshi, W. Yang, and Min Xiao, Phys. Rev. A 70, Rapid Communications, 041802(R) (2004).
[15] “Dynamical Hysteresis in a ThreeLevel Atomic System”, A. Joshi, W. Yang, and Min Xiao, Opt. Lett. 30, 905 (2005).
[16] “Optical Multistability in ThreeLevel Atoms inside an Optical Ring Cavity”, A. Joshi and Min Xiao, Phys. Rev. Lett. 91, 143904 (2003).
[17] “Realization of Alloptical Multistate Switching in an Atomic Coherent Medium”, Jiteng Sheng, U. Khadka, and Min Xiao, Physical Review Letters 109, 223906 (2012).
[18] “Evidence of Lasing without Inversion in a Hot rubidium Vapor under Electromagneticallyinducedtransparency Conditions”, H. Wu, Min Xiao, and J. GeaBanacloche, Phys. Rev. A 78, Rapid Communications, 041802(R) (2008).
[19] “Controlling Dynamic Instability of ThreeLevel Atoms inside an Optical Ring Cavity”, W. Yang, A. Joshi, and Min Xiao, Phys. Rev. A 70, 033807 (2004).
[20] “Stochastic Resonance in Atomic Optical Bistability”, A. Joshi and Min Xiao, Phys. Rev. A 74, 013817 (2006).
[21] “Chaos in an Electromagnetically Induced Transparency Medium inside an Optical Cavity”, W. Yang, A. Joshi, and Min Xiao, Phys. Rev. Lett. 95, 093902 (2005).
[22] “Controlling Cavity Field with Enhanced Kerr Nonlinearity in ThreeLevel Atoms”, H. Wang, D. Goorskey, and Min Xiao, Phys. Rev. A 65, Rapid Communications, 051802(R) (2002).
[23] “Controlling SteadyState Switching in Optical Bistability”, A. Brown, A. Joshi, and Min Xiao, Appl. Phys. Lett. 83,1301 (2003).
[24] “AllOptical Switching and Routing Based on an Electromagnetically Induced Absorption Grating”, A.W. Brown and Min Xiao, Opt. Lett. 30, 699 (2005).
[25] “Synchronous control of a dualchannel alloptical multistate switching”, J. Sheng, J.F. Wang, and Min Xiao, Optics Letters 38, 5369 (2013).
[26] “Efficient Energy Transfer between FourwaveMixing and Sixwave Mixing Processes via Atomic Coherence”, Y. Zhang, B. Anderson, and Min Xiao, Phys. Rev. A 77, Rapid Communications, 061801(R) (2008).
[27] “Fourwave Mixing Gap Solitons”, Y.P. Zhang, Z. Wang, H. Zheng, C. Yuan, C. Li, K. Lu, and Min Xiao, Physical Review A 82, 053837 (2010).
[28] “Fourwave Mixing Dipole Solitons in Laserinduced Atomic Grating”, Y.P. Zhang, Z. Wang, Z. Nie, C. Li, H. Chen, K. Lu, and Min Xiao, Physical Review Letters 106, 093904 (2011).
[29] “Spatial domain interactions between ultraweak optical beams”, U. Khadka, J. Sheng, and Min Xiao, Physical Review Letters 111, 223601 (2013).
[30] “Bright Correlated Twin Beams from an Atomic Ensemble in the Optical Cavity”, H. Wu and Min Xiao, Phys. Rev. A 80, 063415 (2009).
[31] “Threefield Noise Correlation via Thirdorder Nonlinear Optical Processes”, H. Zheng, U. Khadka, J. Song, Y. Zhang, and Min Xiao, Opt. Lett. 36, 2584 (2011).
[32] “Noise Correlations in a Doublyresonant Atomic Optical Parametric Oscillator”, J. Sheng, H. Wu, X. Yang, U. Khadka, and Min Xiao, Optics Letters 37, 1655 (2012).
[33] “Generation of Correlated and Anticorrelated Multiple Fields via Atomic Spin Coherence”, X. Yang, J. Sheng, U. Khadka, and Min Xiao, Phys. Rev. A 85, 013824 (2012).
[34] “Observation of discrete diffraction patterns in an optically induced lattice”, Jiteng Sheng, J. Wang, MA. Miri, D. N. Christodoulides, and Min Xiao, Optics Express 23, 19777 (2015).
[35] “Electromagnetically Induced Talbot Effect”, J. Wen, S. Du, H. Chen, and Min Xiao, Applied. Physics Letters 98, 081108 (2011).
[36] “PTsymmetric optical potentials in a coherent atomic medium”, J. Sheng, MA. Miri, D. N. Christodoulides, and Min Xiao, Phys. Rev. A 88, Rapid Communications, 041803(R) (2013).
[37] “Observation of paritytime symmetry in optically induced atomic lattices”, Z.Y. Zhang, Y.Q. Zhang, J. Sheng, L. Yang, M.A. Miri, D.N. Christodoulides, B. He, Y.P. Zhang and Min Xiao, Physical Review Letters 117, 123601 (2016).
[38] “Photonic Floquet topological insulator in an atomic ensemble’, Y.Q. Zhang, Z. Wu, M.R. Belic, H.B. Zheng, Z. Wang, Min Xiao, and Y.P. Zhang, Laser & Photonics Reviews 9, 331 (2015).
[39] “Twophoton dynamics in coherent Rydberg atomic ensemble”, B. He, A.V. Sharypov, J. Sheng, C. Simon, and Min Xiao, Physical Review Letters 112, 133606 (2014).
[40] “Interacting photon pulses in Rydberg medium”, L. Yang, Bing He, J.H. Wu, Z.Y. Zhang, and Min Xiao, Optica 3, 1095 (2016).
[41] “Dynamical phonon laser in coupled activepassive microresonators”, Bing He, L. Yang, and Min Xiao, Physical Review A 94 Rapid Communications, 031802(R) (2016).
[42] “Strong coupling of an optomechanical system to an anomalously dispersive atomic medium”, Haibin Wu and Min Xiao, Laser Physics Letters 11, 126003 (2014).
[43] “Quantum noise effects with Kerrnonlinearity enhancement in coupled gainloss waveguides”, Bing He, S.B. Yan, J. Wang, and Min Xiao, Physical Review A 91, 053832 (2015).
[44] “Propagation dynamics of a light beam in fractional Schrodinger equation”, Y.Q. Zhang, X. Liu, M. Belic, W. Zhong, Y.P. Zhang, and Min Xiao, Physical Review Letters 115, 180403 (2015).
[45] “PT symmetry in a fractional Schrodinger equation”, Y.Q. Zhang, H. Zhong, M.R. Belic, Y. Zhu, W. Zhong, Y.P. Zhang, D.N. Christodoulides, and Min Xiao, Laser and Photonics Reviews 10, 526 (2016).
21 Century Endowed Chair in Nanotechnology, 2006
Ph. D. in Physics, 1988, University of Texas at Austin
Postdoctoral Fellow, 19881990, MIT
Selected publications in recent years (out of 370 refereed journal papers):
 “Realization of controllable photonic molecule based on three ultrahighQ microtoroid cavities”, C. Yang, X.S. Jiang, Q. Hua, S. Hua, Y. Chen, J. Ma, and Min Xiao, Laser & Photonics Reviews, accepted 2016.
 “Demonstration of a chipbased nonlinear optical isolator”, S. Hua, J. Wen, X.S. Jiang, Q. Hua, L. Jiang, and Min Xiao, Nature Communications 7, 13657 (2016). DOI: 10.10381/ncomms13657.
 “Slow Auger recombination of charged excitons in nonblinking Perovskite nanocrystals without spectral diffusion”, F. Hu, C. Yin, H. Zhang, C. Sun, W. Yu, C.F. Zhang, X.Y. Wang, Y. Zhang, and Min Xiao, Nano Letters 16, 6425 (2016).
 “Interacting photon pulses in Rydberg medium”, L. Yang, Bing He, J.H. Wu, Z.Y. Zhang, and Min Xiao, Optica 3, 1095 (2016).
 “Dynamical phonon laser in coupled activepassive microresonators”, Bing He, L. Yang, and Min Xiao, Physical Review A 94 Rapid Communications, 031802(R) (2016).
 “Observation of paritytime symmetry in optically induced atomic lattices”, Z.Y. Zhang, Y.Q. Zhang, J. Sheng, L. Yang, M.A. Miri, D.N. Christodoulides, B. He, Y.P. Zhang and Min Xiao, Physical Review Letters 117, 123601 (2016).
 “Energy transfer of biexcitons in a single semiconductor nanocrystal”, X. Huang, Q. Xu, C.F. Zhang, X.Y. Wang, and Min Xiao, Nano Letters 16, 2492 (2016).
 “PT symmetry in a fractional Schrodinger equation”, Y.Q. Zhang, H. Zhong, M.R. Belic, Y. Zhu, W. Zhong, Y.P. Zhang, D.N. Christodoulides, and Min Xiao, Laser and Photonics Reviews 10, 526 (2016).
 “Twophoton pumped perovskite semiconductor nanocrystal lasers”, Y. Xu, Q. Chen, C.F. Zhang, R. Wang, H. Wu, X. Zhang, G. Xing, W. Yu, X.Y. Wang, Y. Zhang, Min Xiao, Journal of the American Chemical Society 138, 3791 (2016).
 “Carrier multiplication in a single semiconductor nanocrystal”, F. Hu, B. Lv, C. Yin, C.F. Zhang, X.Y. Wang, B. Lounis, and Min Xiao, Physical Review Letters 116, 106404 (2016).
 “Superior optical properties of perovskite nanocrystals as single photon emitters”, F. Hu, H. Zhang, C. Sun, C. Yin, B. Lv, C.F. Zhang, W. Yu, X.Y. Wang, Y. Zhang, and Min Xiao, ACS Nano 9, 12410 (2015).
 “Propagation dynamics of a light beam in fractional Schrodinger equation”, Yiqi Zhang, X. Liu, M. Belic, W. Zhong, Y.P. Zhang, and Min Xiao, Physical Review Letters 115, 180403 (2015).
 “Magnetic dipolar interaction between correlated triplets created by singlet fission in tetracene crystals”, Rui Wang, C.F. Zhang, B. Zhang, Y. Liu, X.Y. Wang, and Min Xiao, Nature Communications 6, 8602 (2015). DOI: 10.1038/ncomms9602.
 “Large optical nonlinearity induced by singlet fission in pentacene films”, Y. Liu, Chunfeng Zhang, R. Wang, B. Zhang, Z. Tan, X. Wang and Min Xiao, Angewandte Chemie International Edition 54, 6222 (2015).
 “Photonic Floquet topological insulator in an atomic ensemble’, Yiqi Zhang, Z. Wu, M.R. Belic, H.B. Zheng, Z. Wang, Min Xiao, and Y.P. Zhang, Laser & Photonics Reviews 9, 331 (2015).
 “Feedbackoptimized extraordinary optical transmission of continuousvariable entangled states”, D. Wang, C. Xia, Q. Wang, Y. Wu, F. Liu, Yong Zhang, and Min Xiao, Phys. Rev. B, Rapid Communications, 91, 121406(R) (2015).
 “Paritytime symmetry and variable optical isolation in activepassivecoupled microresonators”, L. Chang, Xiaoshun Jiang, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang, and Min Xiao, Nature Photonics 8, 524529 (2014).
 “Energy Transfer from a Single Semiconductor Nanocrystal to Dye Molecules”, Z. Hua, Q.F. Xu, X. Huang, C.F. Zhang, X.Y. Wang, Min Xiao, ACS Nano 8,7060 (2014).
 “Twophoton dynamics in coherent Rydberg atomic ensemble”, B. He, A.V. Sharypov, J. Sheng, C. Simon, and Min Xiao, Physical Review Letters 112, 133606 (2014).
 “Singleparticle spectroscopic measurements of fluorescent graphene quantum dots”, Q.F. Xu, Q. Zhou, Z. Hua, Q. Xue, C.F. Zhang, X.Y. Wang, D.Y. Pan, and Min Xiao, ACS Nano 7, 10654 (2013).
 “Spatial domain interactions between ultraweak optical beams”, U. Khadka, J. Sheng, and Min Xiao, Physical Review Letters 111, 223601 (2013).
 “PTsymmetric optical potentials in a coherent atomic medium”, J. Sheng, MA. Miri, D. N. Christodoulides, and Min Xiao, Phys. Rev. A 88, Rapid Communications, 041803(R) (2013).
 “Broadband Optical Nonlinearity Induced by ChargeTransfer Excitons in TypeII CdSe/ZnTe Nanocrystals”, Y. Liu, C.F. Zhang, H. Zhang, R. Wang, Z. Hua, X. Wang, J. Zhang, and Min Xiao, Advanced Materials 25, 4397 (2013).
Full List of Publications (Refereed journals only):
377. “Demonstration of an ultralow threshold phonon laser with coupled microtoroid resonators in vacuum”, G. Wang, M. Zhao, Y. Qin, Z. Yin, X.S. Jiang, and Min Xiao, Photonics Research, accepted 2017.
376. “Controlled correlation and squeezing in Pr3+:YSO crystal”, C. Li, Z. Jiang, Y.Q. Zhang, Z.Y. Zhang, F. Wen, H. Chen, Y.P. Zhang, and Min Xiao, Physical Review Applied 7, 014023 (2017).
375. “Twodimensional Talbot selfimaging via electromagnetically induced lattice”, F. Wen, W. Wang, A. Irfan, H. Wang, Y.Q. Zhang, Y.P. Zhang, R.M. Abdul, and Min Xiao, Scientific Reports, accepted, 2017.
374. “Realization of controllable photonic molecule based on three ultrahighQ microtoroid cavities”, C. Yang, X.S. Jiang, Q. Hua, S. Hua, Y. Chen, J. Ma, and Min Xiao, Laser & Photonics Reviews, accepted 2016.
373. “Squeezingenhanced fiber MachZehnder interferometer for lowfrequency phase measurement”, F. Liu, Y. Zhou, J. Yu, J. Guo, Y. Wu, S. Xiao, D. Wei, Yong Zhang, X.J. Jia, and Min Xiao, Applied Physics Letters 110, 021106 (2017).
372. “Tunable diffractionfree array in nonlinear photonic crystal”, D. Liu, D. Wei, Yong Zhang, Z. Chen, R. Ni, B. Yang, X. Hu, Y. Qin, S.N. Zhu, and Min Xiao, Scientific Reports 7, 40856 (2017).
371. “Transport properties in the photonic superhoneycomb lattice – a hybrid fermionic and bosonic system”, H. Zhong, Y.Q. Zhang, Y. Zhu, D. Zhang, C. Li, Y.P. Zhang, F. Li, M.R. Belic, and Min Xiao, Annalen der Physik, accepted 2016.
370. “Optomechanically tuned electromagnetically induced transparencylike effect in coupled optical microcavities”, G. Li, X.S. Jiang, S. Hua, Y. Qin, and Min Xiao, Applied Physics Letters 109, 261106 (2016).
369. “Ultralowthreshold singlemode lasing from phasepure CdSe/CdS core/shell quantum dots”, C. Liao, R. Xu, Y. Xu, C.F. Zhang, Min Xiao, L. Zhang, C. Lu, Y. Cui, and J.Y. Zhang, J. Phys. Chem. Lett. 7, 4968 (2016).
368. “Onchip optical nonreciprocity using an active microcavity”, X.S. Jiang, C. Yang, H. Wu, S. Hua, L. Chang, Y. Ding, Q. Hua, and Min Xiao, Scientific Reports 6, 38972 (2016). DOI: 10.1038/srep38972
367. “11.4% efficiency nonfullerene polymer solar cells with trialkylsilylsubstituted 2Dconjugated polymer as donor”, H. Bin, L. Gao, Z. Zhang, Y. Yang, Y. Zhang, C.F. Zhang, S. Chen, L. Xue, C. Yang, Min Xiao, and Y.F. Li, Nature Communications 7, 13651 (2016). DOI: 10.1038/ncomms13651
366. “Demonstration of a chipbased nonlinear optical isolator”, S. Hua, J. Wen, X.S. Jiang, Q. Hua, L. Jiang, and Min Xiao, Nature Communications 7, 13657 (2016). DOI: 10.10381/ncomms13657.
365. “Slow Auger recombination of charged excitons in nonblinking Perovskite nanocrystals without spectral diffusion”, F. Hu, C. Yin, H. Zhang, C. Sun, W. Yu, C.F. Zhang, X.Y. Wang, Y. Zhang, and Min Xiao, Nano Letters 16, 6425 (2016).
364. “Construction and nanoscale detection of interfacial charge transfer of elegant Zscheme WO3/Au/In2S3 nanowire arrays”, H. Li, Y. Gao, Y. Zhou, F. Fan, Q. Han, Q. Xu, X.Y. Wang, Min Xiao, C. Li, and Z. Zou, Nano Letters, 16, 5547 (2016).
363. “Interacting photon pulses in Rydberg medium”, L. Yang, Bing He, J.H. Wu, Z.Y. Zhang, and Min Xiao, Optica 3, 1095 (2016).
362. “Dynamical phonon laser in coupled activepassive microresonators”, Bing He, L. Yang, and Min Xiao, Physical Review A 94 Rapid Communications, 031802(R) (2016).
361. “Observation of paritytime symmetry in optically induced atomic lattices”, Z.Y. Zhang, Y.Q. Zhang, J. Sheng, L. Yang, M.A. Miri, D.N. Christodoulides, B. He, Y.P. Zhang and Min Xiao, Physical Review Letters 117, 123601 (2016). Highlighted as a “Trending in PRL” article on PRL website.
360. “Conversion of the optical orbital angular momentum in a plasmonassisted secondharmonic generation”, Y. Wang, D. Wei, Y. Zhu, X. Huang, X. Fang, W. Zhong, Q. Wang, Yong Zhang, and Min Xiao, Applied Physics Letters 109, 081105 (2016).
359. “Coherent optical phonon oscillation and possible electronic softening in WTe2 crystals”, Bin He, C.F. Zhang, W. Zhu, Y. Li, S. Liu, X. Zhu, X. Wu, X.Y. Wang, H.H. Wen, and Min Xiao, Scientific Reports 6, 30487 (2016).
358. “Control of atomic spin squeezing via quantum coherence”, X. Shao, Y. Ling, X.H. Yang, and Min Xiao, Phys. Rev. A 93, 063825 (2016).
357. “Fractional nonparaxial accelerating Talbot effect”, Y.Q. Zhang, H. Zhong, M.R. Belic, C. Li, Z.Y. Zhang, F. Wen, Y.P. Zhang, and Min Xiao, Optics Letters 41, 3273 (2016).
356. “Survival of the orbital angular momentum of light through an extraordinary optical transmission process in the paraxial approximation”, D.Z. Wei, Y. Wu, Y. Wang, D. Liu, Y. Zhu, D. Wei, Yong Zhang, and Min Xiao, Optics Express 24, 12007 (2016).
355. “Augerassisted ultrafast fluorescence measurement of semiconductor singlewalled carbon nanotubes”, F. Hu, Z. Cao, Z Hua, Q. Xu, M. Zheng, C.F. Zhang, X.Y. Wang, and Min Xiao, ACS Photonics 3, 1415 (2016).
354. “Energy transfer of biexcitons in a single semiconductor nanocrystal”, X. Huang, Q. Xu, C.F. Zhang, X.Y. Wang, and Min Xiao, Nano Letters 16, 2492 (2016).
353. “Coherent acoustic phonons in YBa2Cu3O7/La1/3Ca2/3MnO3 superlattices”, W. Li, B. He, C.F. Zhang, S. Liu, X. Liu, S. Middey, J. Chakhalian, X.Y. Wang, and Min Xiao, Applied Physics Letters 108, 132601 (2016).
352. “Efficient lead acetate sourced planar heterojunction perovskite solar cells with enhanced substrate coverage via onestep spincoating”, C. Li, Q. Guo, W. Qiao, Q. Chen, S. Ma, X. Pan, F. Wang, J. Yao, C.F. Zhang, Min Xiao, S. Dai, and Z. Tan, Organic Electronics 33, 194 (2016).
351. “Diffractionfree beams in fractional Schrodinger equation”, Y.Q. Zhang, H. Zhong, M.R. Belic, N. Ahmed, Y.P. Zhang, and Min Xiao, Scientific Reports 6, 23645 (2016).
350. “PT symmetry in a fractional Schrodinger equation”, Y.Q. Zhang, H. Zhong, M.R. Belic, Y. Zhu, W. Zhong, Y.P. Zhang, D.N. Christodoulides, and Min Xiao, Laser and Photonics Reviews 10, 526 (2016).
349. “Twophoton pumped perovskite semiconductor nanocrystal lasers”, Y. Xu, Q. Chen, C.F. Zhang, R. Wang, H. Wu, X. Zhang, G. Xing, W. Yu, X.Y. Wang, Y. Zhang, Min Xiao, Journal of the American Chemical Society 138, 3791 (2016).
348. “Coupled orbital angular momentum conversions in a quasiperiodically poled LiTaO3 crystal”, X. Fang, G. Yang, D. Wei, D. Wei, R. Ni, W. Ji, Yong Zhang, X. Hu, W. Hu, Y. Lu, S.N. Zhu, and Min Xiao, Optics Letters 41, 1169 (2016).
347. “Carrier multiplication in a single semiconductor nanocrystal”, F. Hu, B. Lv, C. Yin, C.F. Zhang, X.Y. Wang, B. Lounis, and Min Xiao, Physical Review Letters 116, 106404 (2016).
346. “Extended storage of multiple excitons in trap states of semiconductor nanocrystals”, Q. Xu, X. Huang, Z. Hua, L. Hu, L. Du, H. Wu, C.F. Zhang, X.Y. Wang, and Min Xiao, Appl. Phys. Lett. 108, 093110 (2016).
345. “Efficient thermal conductance in organometallic perovskite CH3NH3PbI3 films”, Q. Chen, C.F. Zhang, M. Zhu, S. Liu, M.E. Siemens, S. Gu, J. Zhu, J. Shen, X. Wu, C. Liao, J. Zhang, X.Y. Wang, and Min Xiao, Appl. Phys. Lett. 108, 081902 (2016).
344. “Core–shell amorphous cobalt phosphide/cadmium sulfide semiconductor nanorods for exceptional photocatalytic hydrogen production under visible light”, Z. Sun, B. Lv, J. Li, Min Xiao, X.Y. Wang, and P.W. Du, Journal of Materials Chemistry A 4, 1598 (2016).
343. “Magnetic enhancement of photoluminescence from blueluminescent graphene quantum dots”, C. Shi, Q. Chen, C.F. Zhang, S. Pu, R. Wang, X. Wu, X.Y. Wang, F. Xue, D. Pan, and Min Xiao. Appl. Phys. Lett. 108, 061904 (2016).
342. “High color rendering index hybrid IIInitride/nanocrystals white lightemitting diodes”, Z. Zhuang, X. Guo, Bin Liu, F. Hu, Y. Li, T. Tao, J. Dai, T. Zhi, Z. Xie, P. Chen, D. Chen, H. Ge, X.Y. Wang, Min Xiao, Y. Shi, Y. Zheng, and R. Zhang, Advanced Functional Materials 26, 36 (2016).
341. “Great enhancement in excitonic recombination and light extraction of highly ordered InGaN/GaN elliptic nanorod arrays on a wafer scale”, Z. Zhuang, X. Guo, B. Liu, F. Hu, J. Dai, Y. Zhang, Y. Li, T. Tao, T. Zhi, Z. Xie, H. Ge, X.Y. Wang, Min Xiao, T. Wang, Y. Shi, Y. Zheng, Rong Zhang, Nanotechnology 27, 015301 (2016).
340. “Probing carrier transport and structureproperty relationship of highly ordered organic semiconductors at twodimensional limit”, Y.H. Zhang, J. Qiao, S. Gao, F. Hu, D. He, B. Wu, Z. Yang, B. Xu, Y. Li, Y. Shi, W. Ji, P. Wang, X.Y. Wang, Min Xiao, H. Xu, J.B. Xu, and X.R. Wang, Physical Review Letters 116, 016602 (2016). Highlighted as a Viewpoint in Physics.
339. “Superior optical properties of perovskite nanocrystals as single photon emitters”, F. Hu, H. Zhang, C. Sun, C. Yin, B. Lv, C.F. Zhang, W. Yu, X.Y. Wang, Y. Zhang, and Min Xiao, ACS Nano 9, 12410 (2015).
338. “Dual accelerating AiryTalbot recurrence effect”, Yiqi Zhang, H. Zhong, M.R. Belic, X. Liu, W. Zhong, Y.P. Zhang, and Min Xiao, Optics Letters 40, 5742 (2015).
337. “Propagation dynamics of a light beam in fractional Schrodinger equation”, Yiqi Zhang, X. Liu, M. Belic, W. Zhong, Y.P. Zhang, and Min Xiao, Physical Review Letters 115, 180403 (2015).
336. “Multiple copies of orbital angular momentum states through secondharmonic generation in a 2D PPLT crystal”, X. Fang, D. Wei, D. Liu, W.H. Zhong, R. Ni, Z. Chen, X. Hu, Yong Zhang, S. N. Zhu, and Min Xiao, Applied Physics Letters 107, 161102 (2015).
335. “Dressed gain from the parametrically amplified fourwave mixing process in an atomic vapor”, Z.Y. Zhang, F. Wen, J. Che, D. Zhang, C. Li, Y.P. Zhang, and Min Xiao, Scientific Reports 5, 15058 (2015).
334. “Magnetic dipolar interaction between correlated triplets created by singlet fission in tetracene crystals”, Rui Wang, C.F. Zhang, B. Zhang, Y. Liu, X.Y. Wang, and Min Xiao, Nature Communications 6, 8602 (2015). DOI: 10.1038/ncomms9602.
333. “HighQ silica microdisk optical resonators with large wedge angles on a silicon chip”, G.Y. Li, P. Liu, Xiaoshun Jiang, C. Yang, H. Wu, and Min Xiao, Photonics Research 3, 279 (2015).
332. “Electromagnetically induced entanglement”, Xihua Yang and Min Xiao, Scientific Reports 5, 13609 (2015).
331. “Hexahedron prismanchored octahedronal CeO2: crystal facetbased homojunction Promoting efficient solar fuel synthesis”, P. Li, Yong Zhou, Z. Zhao, Q. Xu, X.Y. Wang, Min Xiao, and Z.G. Zou, J. Am. Chem. Soc. 137, 9547 (2015).
330. “Design of superoscillatory lens for a polarized beam”, Z. Chen, Yong Zhang, and Min Xiao, J. Opt. Soc. of Am. B 32, 1731 (2015).
329. “Observation of discrete diffraction patterns in an optically induced lattice”, Jiteng Sheng, J. Wang, MA. Miri, D. N. Christodoulides, and Min Xiao, Optics Express 23, 19777 (2015).
328. “Discrete Talbot effect in twodimensional waveguide arrays”, Z. Chen, Yong Zhang, and Min Xiao, Optics Express 23, 14724 (2015).
327. “Modeling of onchip optical nonreciprocity with an active microcavity”, J. Wen, X.S. Jiang, M. Zhang, L. Jiang, S. Hua, H. Wu, C. Yang, and Min Xiao, Photonics 2, 498 (2015).
326. “Quantum noise effects with Kerrnonlinearity enhancement in coupled gainloss waveguides”, Bing He, S.B. Yan, J. Wang, and Min Xiao, Physical Review A 91, 053832 (2015).
325. “Multidressing timedelayed fourth and sixthorder fluorescence processes in Pr3+:YSO”, C. Li, L. Wang, C. Yang, T. Jiang, M. Imran, I. Ahmed, Min Xiao, and Y.P. Zhang, RSC Advances 5, 39449 (2015).
324.“Efficient perovskite/fullerence planar heterojunction solar cells with enhanced charge extraction and suppressed charge recombination”, C. Li, F. Wang, J. Xu, J. Yao, B. Zhang, C.F. Zhang, Min Xiao, S. Dai, Y. Li, and Z. Tan, Nanoscale 7, 9771 (2015).
323.“Phase modulation in Rydberg dressed multiwave mixing processes”, Z.Y. Zhang, H. Zheng, Y. Tian, J. Che, X. Wang, D. Zhu, Y.P. Zhang, and Min Xiao, Scientific Reports 5, 10462 (2015).
322. “Lateral carrier confinement in InGaN quantumwell nanorods”, C. Shi, C.F. Zhang, X.Y. Wang, and Min Xiao, Annual of Physics, invited review (refereed), 358, 255 (2015).
321. “Ultrafast spectroscopic study for singlet fission”, B. Zhang, C.F. Zhang, X. Li, R. Wang, and Min Xiao, Acta Physica Sinica, invited review (refereed), 64(9), 094210 (2015).
320. “Charged twoexciton emission from a single semiconductor nanocrystal”, F. Hu, Q. Zhang, C.F. Zhang, X.Y. Wang, and Min Xiao, Applied Physics Letters 106, 133106 (2015).
319. “Demonstration of ultralowthreshold 2 micrometer microlasers on chip”, H. Fan, Xiaoshun Jiang, Y. Ding, and Min Xiao, Science China: Physics, Mechanics, & Astronomy, (special issue on highQ cavities) 58, 114204 (2015).
318. “Cyclic permutationtime symmetric structure with coupled gainloss microcavities”, Bing He, L. Yang, Z.Y. Zhang, and Min Xiao, Phys. Rev. A 91, 033830 (2015).
317. “Large optical nonlinearity induced by singlet fission in pentacene films”, Y. Liu, Chunfeng Zhang, R. Wang, B. Zhang, Z. Tan, X. Wang and Min Xiao, Angewandte Chemie International Edition 54, 6222 (2015).
316. “Photonic Floquet topological insulator in an atomic ensemble’, Yiqi Zhang, Z. Wu, M.R. Belic, H.B. Zheng, Z. Wang, Min Xiao, and Y.P. Zhang, Laser & Photonics Reviews 9, 331 (2015).
315. “Feedbackoptimized extraordinary optical transmission of continuousvariable entangled states”, D. Wang, C. Xia, Q. Wang, Y. Wu, F. Liu, Yong Zhang, and Min Xiao, Phys. Rev. B, Rapid Communications, 91, 121406(R) (2015).
314. “Defectinduced photoluminescence blinking of single epitaxial InGaAs quantum dots”, F. Hu, Z. Cao, C. Zhang, Xiaoyong Wang, and Min Xiao, Scientific Reports 5, 8898 (2015).
313. “Continuousvariable entanglement measurement using an unbalanced MachZehnder interferometer”, C. Xia, D. Wang, Y. Wu, J. Guo, F. Liu, Yong Zhang, and Min Xiao, Optics Letters 40, 1121 (2015).
312. “Allsolidstate Zscheme system arrays of Fe2V4O13/RGO/CdS for visible lightdriving photocatalytic CO2 reduction into renewable hydrocarbon fuel”, P. Li, Y. Zhou, H. Li, Q. Xu, X. Meng, X.Y. Wang, Min Xiao, and Z.G. Zou, Chemical Communications 51, 800 (2015).
311. “Radiationpressuredriven mechanical oscillations in silica microdisk resonators on chip”, G. Wang, M. Zhao, J. Ma, G. Li, Y. Chen, X.S. Jiang and Xiao Min, Science China: Physics, Mechanics, & Astronomy (special issue on optomechanics), 58, 050307 (2015).
310. “Competition between spontaneous parametric fourwave mixing and fluorescence in Pr3+:YSO”, H. Lan, C. Li, C. Lei, H. Zheng, R. Wang, Min Xiao and Y.P. Zhang, Laser Physics Letters 12, 015404 (2015).
309. “Ultrafast spectroscopy of quasiparticle dynamics in cuprate superconductors”, W. Li, Chunfeng Zhang, X.Y. Wang, J. Chakhalian, and Min Xiao, J. of Magnetism and Magnetic Materials, special issue (invited review, refereed), 376, 29 (2015).
308. “MoO bond doping and relateddefect assisted enhancement of photoluminescence in monolayer MoS2”, X. Wei, Z. Yu, F. Hu, Y. Cheng, L. Yu, X.Y. Wang, Min Xiao, J. Wang, X.R. Wang, and Y. Shi, AIP Advances 4, 123004 (2014).
307. “Polarizationdependent exciton dynamics in tetracene single crystals”, B. Zhang, Chunfeng Zhang, Y. Xu, R. Wang, B. He, Y. Liu, S. Zhang, X.Y. Wang, and Min Xiao, Journal of Chemical Physics 141, 244303 (2014).
306. “Strong coupling of an optomechanical system to an anomalously dispersive atomic medium”, Haibin Wu and Min Xiao, Laser Physics Letters 11, 126003 (2014).
305. “Nonlinear density dependence of singlet fission rate in tetracene films”, B. Zhang, C.F. Zhang, R. Wang, Z. Tan, Y. Liu, W. Guo, X. Zhai, Y. Cao, X.Y. Wang, and Min Xiao, Journal of Physical Chemistry Letters 5, 3462 (2014).
304. “Seeded spontaneous parametric fourwave mixing and fluorescence of Pr3+:YSO”, H.B. Zheng, C. Li, H. Lan, C. Lei, D. Zhang, Y.P. Zhang, and Min Xiao, Laser Physics Letters 11, 116102 (2014).
303. “Diffraction interference induced superfocusing in nonlinear Talbot effect”, D. Liu, Yong Zhang, J. Wen, Z. Chen, D. Wei, X. Hu, G. Zhao, S. N. Zhu, & Min Xiao, Scientific Reports 4, 6134 (2014).
302. “Polarization dressed multiorder fluorescence of Pr3+:Y2SiO5”, R. Wang, C. Li, H. Lan, H. Zheng, Min Xiao, and Y.P. Zhang, Phys. Chem. Chem. Phys. 16, 15623 (2014).
301. “Superposed Secondharmonic Talbot Selfimage from a PPLT Crystal”, D. Wei, D. Liu, X.P. Hu, Yong Zhang, and Min Xiao, Laser Physics Letters 11, 095402 (2014).
300.“Paritytime symmetry and variable optical isolation in activepassivecoupled microresonators”, L. Chang, Xiaoshun Jiang, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang, and Min Xiao, Nature Photonics 8, 524529 (2014). doi:10.1038/nphoton.2014.133
299. “Energy Transfer from a Single Semiconductor Nanocrystal to Dye Molecules”, Z. Hua, Q.F. Xu, X. Huang, C.F. Zhang, X.Y. Wang, Min Xiao, ACS Nano 8,7060 (2014).
298. “Generation of multipartite continuousvariable entanglement via atomic spin wave: HeisenbergLangevin approach,” X.H. Yang, J. Shang, B. Xue, Y. Zhou, and Min Xiao, Optics Express 22, 12563 (2014).
297. “Mott behavior in KxFe2ySe2 superconductors studied by pumpprobe spectroscopy”, W. Li, C.F. Zhang, S. Liu, X. Ding, X. Wu, X.Y. Wang, H.H. Wen, and Min Xiao, Phys. Rev. B 89, 134515 (2014).
296.“Reducing the efficiency droop by lateral carrier confinement in InGaN/GaN quantumwell nanorods”, C. Shi, C.F. Zhang, F. Yang, M.J. Park, J.S. Kwak, S. Jung, Y.H. Choi, X.Y. Wang and Min Xiao, Optical Express 22, A790 (2014).
295.“Twophoton dynamics in coherent Rydberg atomic ensemble”, B. He, A.V. Sharypov, J. Sheng, C. Simon, and Min Xiao, Physical Review Letters 112, 133606 (2014).
294. “Blockaded six and eightwave mixing processes tailored by electromagnetically induced transparency scissors”, H.B. Zheng, X. Yao, Z.Y. Zhang, J. Che, Y. Zhang, Y.P. Zhang and Min Xiao, Laser Physics 24, 045404 (2014).
293.“Singlecrystalline, ultrathin ZnGa2O4 nanosheet scaffolds to promote photocatalytic activity in CO2 reduction into methane”, Q. Liu, D. Wu, Y. Zhou, H. Su, R. Wang, C.F. Zhang, S. Yan, Min Xiao, and Z. Zou, ACS Applied Materials & Interfaces 6, 2356 (2014).
292. “Alloptically controlled fourth and sixthorder fluorescence processes of Pr3+:YSO”, C. Li, L. Wang, H. Zheng, H. Lan, C. Lei. D. Zhang, Min Xiao, and Y.P. Zhang, Applied Physics Letters 104, 051912 (2014).
291.“Giant upconversion efficiency of InGaAs quantum dots in a planar microcavity”, Q. Xu, C. Piermarocchi, Y. Pershin, G.J. Salamo, Min Xiao, X.Y. Wang, and C.K. Shih, Scientific Reports 4, 3953 (2014).
290. “Coupled atomic coherences induced by a standing wave”, X.M. Su, J. Sheng, and Min Xiao, Optics Communications 318, 120 (2014).
289. “Parametrically amplified brightstate polariton of four and sixwave mixing in an optical ring cavity”, H. Chen, Y. Zhang, X. Yao, Z. Wu, X. Zhang, Y.P. Zhang, and Min Xiao, Scientific Reports 4, 3619 (2014).
288. “Rational and scalable fabrication of highquality WO3/CdS core/shell nanowire arrays for photoanodes toward enhanced charge separation and transport under visible light”, H. Li, Y. Zhou, L. Chen, W. Luo, Q.F. Xu, X.Y. Wang, Min Xiao and Zhigang Zou, Nanoscale 5, 11933 (2013).
287. “Cubicquintic condensate solitons in fourwave mixing”, Z. Wu, Y. Zhang, C. Yuan, F. Wen, H. Zheng, Y.P. Zhang, and Min Xiao, Phys. Rev. A 88, 063828 (2013).
286. “Towards quantumenhanced precision measurements: Promise and challenges”, Lijian Zhang and Min Xiao, invited review, Chin. Phys. B 22, 110310 (2013).
285. “Entangler via electromagnetically induced transparency with an atomic ensemble”,
X.H. Yang, Y. Zhou, and Min Xiao, Scientific Reports 3, 3479 (2013).
284. “Singleparticle spectroscopic measurements of fluorescent graphene quantum dots”, Q.F. Xu, Q. Zhou, Z. Hua, Q. Xue, C.F. Zhang, X.Y. Wang, D.Y. Pan, and Min Xiao, ACS Nano 7, 10654 (2013).
283. “Synchronous control of a dualchannel alloptical multistate switching”, J. Sheng, J.F. Wang, and Min Xiao, Optics Letters 38, 5369 (2013).
282. “Spatial domain interactions between ultraweak optical beams”, U. Khadka, J. Sheng, and Min Xiao, Physical Review Letters 111, 223601 (2013).
281. “PTsymmetric optical potentials in a coherent atomic medium”, J. Sheng, MA. Miri, D. N. Christodoulides, and Min Xiao, Phys. Rev. A 88, Rapid Communications, 041803(R) (2013).
280. “Defect recombination induced by densityactivated carrier diffusion in nonpolar InGaN quantum wells”, F. Yang, C.F. Zhang, C. Shi, M.J. Park, J.S. Kwak, S. Jung, YH. Choi, X. Wu, X.Y. Wang, and Min Xiao, Applied Physics Letters 103, 123506 (2013).
279. “Demonstration of an erbiumdoped microsphere laser on a silicon chip”, H. Fan, S. Hua, X.S. Jiang, and Min Xiao, Laser Physics Lasers 10, 105809 (2013).
278. “Enhanced HotCarrier Luminescence in Multilayer Reduced Graphene 0xide Nanospheres”, Qi Chen, C.F. Zhang, F. Xue, Y. Zhou, W. Li, Y. Wang, W. Tu, Z. Zou, X.Y. Wang, and Min Xiao, Scientific Reports 3, 2315 (2013).
277. “Implementation of Bright Twocolor Quadripartite Continuousvariable Entanglement by the Quantum Optical Dimer”, J.F. Wang, J.T. Sheng, S.N. Zhu, and Min Xiao, Journal of Optical Society of America B 30, 2130 (2013).
276. “Threading Immobilized DNA Molecules through a Solidstate Nanopore at >100 ms Per Base Rate”, C. Hyun, H. Kaur, R. Rollings, Min Xiao, and Jiali Li, ACS Nano 7, 58925900 (2013).
275. “Quasiphasematched secondharmonic Talbot selfimaging in a 2D periodicallypoled LiTaO3 crystal”, D. Liu, Yong Zhang, J. Wen, J. Zou, X. P. Hu, S. N. Zhu, and Min Xiao, Optics Express 21, 13969 (2013).
274. “Broadband Optical Nonlinearity Induced by ChargeTransfer Excitons in TypeII CdSe/ZnTe Nanocrystals”, Y. Liu, C.F. Zhang, H. Zhang, R. Wang, Z. Hua, X. Wang, J. Zhang, and Min Xiao, Advanced Materials 25, 4397 (2013).
273. “Quantum Limits for the Cascaded Optical Parametric Oscillators”, D. Wang, Y. Zhang, and Min Xiao, Phys. Rev. A 87, 023834 (2013).
272. “Ultrafast Pumpprobe Spectroscopy Signatures of Superconducting and Pseudogap Phases in YBa2Cu3O7d Films”, C.F. Zhang, W. Li, B. Gary, B. He, Y. Wang, F. Yang, X. Wang, J. Chakhalian, and Min Xiao, J. of Applied Physics 113, 083901 (2013).
271. “Amplification of the Intracavity Darkstate Field by a Fourwave Mixing Process”, Jiteng Sheng and Min Xiao, Laser Physics Letters 10, 055402 (2013).
270. “The Talbot Effect: Recent Advances in Classical Optics, Nonlinear Optics and Quantum Optics”, Jianming Wen, Yong Zhang, and Min Xiao, Advances in Optics and Photonics, invited review (refereed), 5, 83130 (2013).
269. “Coherent Control of Dressed Images of Fourwave Mixing”, Z. Wu, Y. Zhang, T. Liu, Z. Zhang, C. Liu, Yanpeng Zhang, and Min Xiao, Frontiers of Physics, 8, 228235 (2013).
268. “Surface Solitons of Fourwave Mixing in Electromagnetically Induced Lattice”, Y.P. Zhang, C. Yuan, H. Zheng, H. Chen, C. Li, Z. Wang and Min Xiao, Laser Physics Letters 10, 055406 (2013).
267. “An In Situ Simultaneous ReductionHydrolysis Technique for Fabrication of TiO2Graphene 2D Sandwichlike Hybrid Nanosheets: GraphenePromoted Selectivity of PhotocatalyticDriven Hydrogenation and Coupling of CO2 into Methane Ethane”, W. Tu, Y. Zhou, Q. Liu, S. Yan, S. Bao, X.Y. Wang, Min Xiao, and Z. Zou, Advanced Functional Materials 23, 1743 (2013).
266. “Microlaser Based on a Hybrid Structure of a Semiconductor Nanowire and a Silica Microdisk Cavity”, G. Wang, X. Jiang, M. Zhao, Y. Ma, H. Fan, Q. Yang, L. Tong, and Min Xiao, Opt. Express 20, 29472 (2012).
265. “Indirect Optical Transitions in Hybrid Spheres with Alternating Layers of Titania and Graphene Oxide Nanosheets”, S. Bao, Z. Hua, X.Y. Wang, Y. Zhou, C.F. Zhang, W. Tu, Z. Zou, and Min Xiao, Opt. Express 20, 28801 (2012).
264. “Realization of Alloptical Multistate Switching in an Atomic Coherent Medium”, Jiteng Sheng, U. Khadka, and Min Xiao, Physical Review Letters 109, 223906 (2012).
263. “Acoustooptic tunable secondharmonic Talbot effect based on periodicallypoled LiNbO3 crystals”, Dongmei Liu, Yong Zhang, Z. Chen, J. Wen, and Min Xiao, J. Opt. Soc. Am. B 29, 3325 (2012).
262. “Carrier Multiplication in Semiconductor Nanocrystals Detected by Energy Transfer to Organic Dye Molecules”, J. Xiao, Y. Wang, Z. Hua, X.Y. Wang, C. Zhang, and Min Xiao, Nature Communications 3, 1170 (2012).
261. “Fabrication and Photoluminescence of SiC Quantum Dots Stemming from 3C, 6H, and 4H Polytypes of Bulk SiC”, Jiyang Fan, H. Li, J. Wang, and Min Xiao, Applied Physics Letters, 101, 131906 (2012).
260. “Controllable Optical Analog to Electromagnetically Induced Transparency in Coupled HighQ Microtoroid Cavities”, C. Zheng, X. Jiang, S. Hua, L. Chang, G. Li, H. Fan, and Min Xiao, Optics Express 20, 18319 (2012).
259. “Timeresolved Photoluminescence Properties of CuInS2/ZnS Nanocrystals: Influence of Intrinsic Defects and External Impurities”, V.K. Komarala, C. Xie, Y. Wang, J. Xu, and Min Xiao, J. Appl. Phys., 111, 124314 (2012).
258. “A Dyefree Photoelectrochemical Solar Cell Based on BiVO4 with a Long Lifetime of Photogenerated Carriers”, J. Zhang, W. Luo, W. Li, X. Zhao, G. Xue, T. Yu, C.F. Zhang, Min Xiao, Z. Li, and Z. Zou, Electrochemical Communications 22, 49 (2012).
257. “Generation of Exciton Polaritons in ZnO Microcrystallines Using Second Harmonic Generation”, X. Lu, H. Zhou, G.J. Salamo, Z.R. Tian, and Min Xiao, New Journal of Physics 14, 073017 (2012).
256. “Effects of Reduced Exciton Diffusion in InGaN/GaN Multiple Quantum Well Nanorods”, B. Jiang, C.F. Zhang, X. Wang, F. Xue, M.J. Park, J.S. Kwak, and Min Xiao, Optics Express 20, 13478 (2012).
255. “Generation of Multipartite Continuousvariable Entanglements via Atomic Spin Wave”, X. Yang, Y. Zhou, and Min Xiao, Phys. Rev. A 85, 052307 (2012).
254. “The Impact of Carrier Transport Confinement on the Energy Transfer between InGaN/GaN Quantumwell Nanorods and Colloidal Nanocrystals”, B. Jiang, C.F. Zhang, X. Wang, M.J. Park, J.S. Kwak, J. Xu, H. Zhang, J. Zhang, F. Xue, and Min Xiao, Advanced Functional Materials 22, 3146 (2012).
253. “Frequency Upconverted Lasing in Polymetric Composites with Twophoton Absorbing Antenna”, Q. Chen, C.F. Zhang, B. Jiang, X. Wang, Y.J. Liu, Y. Cao, and Min Xiao, Optics Express 20, 9135 (2012).
252. “Measurement of Two Independent Phaseshifts Using Coupled Parametric Amplifiers”, U. Khadka, J. Sheng, X. Yang, and Min Xiao, New Journal of Physics 14, 043026 (2012).
251. “ Twophotonpumped Optical Gain in Dypolymer Composite Materials”, W. Li, C.F. Zhang, Q. Chen, X. Wang, and Min Xiao, Appl. Phys. Lett. 100, 133305 (2012).
250. “Fourwave Mixing between the Upper Excited States in a Laddertype Atomic Configuration”, U. Khadka, H. Zheng, and Min Xiao, Optics Express 20, 6204 (2012).
249. “Noise Correlations in a Doublyresonant Atomic Optical Parametric Oscillator”, J. Sheng, H. Wu, X. Yang, U. Khadka, and Min Xiao, Optics Letters 37, 1655 (2012).
248. “Fractional Secondharmonic Talbot Effect”, Z.H. Chen, D.M. Liu, Yong Zhang, J. Wen, S.N. Zhu, and Min Xiao, Optics Letters 37, 689 (2012).
247. “Generation of Correlated and Anticorrelated Multiple Fields via Atomic Spin Coherence”, X. Yang, J. Sheng, U. Khadka, and Min Xiao, Phys. Rev. A 85, 013824 (2012).
246. “Modified selfKerr nonlinearity in a fourlevel Ntype atomic system”, Jiteng Sheng, X. Yang, H. Wu, and Min Xiao, Phys. Rev. A 84, 053820 (2011).
245. “Electromagnetically induced absorption via incoherent collisions”, Xihua Yang, J. Sheng, and Min Xiao, Phys. Rev. A 84, 043837 (2011).
244. “Interferometric Control of Parametrically Amplified Waveforms”, Utsab Khadka, H. Zheng, and Min Xiao, Phys. Rev. A 84, 043814 (2011).
243. “Interference of Three Multiwave Mixing via Electromagnetically Induced Transparency”, Z.G. Wang, P. Li, H. Zheng, S. Sang, R. Zhang, Y.P. Zhang, and Min Xiao, J. Opt. Soc. Am. B 28, 1922 (2011).
242. “Directly Produced Threecolor Entanglement by Quasiphasematched Thirdharmonic Generation”, Y.B. Yu, H.J. Wang, Min Xiao, and S.N. Zhu, Optics Express 19, 13949 (2011).
241. “Alloptical Switching in an Ntype Fourlevel Atomcavity System”, J. Sheng, X.H. Yang, U. Khadka, and Min Xiao, Optics Express 19, 17059 (2011).
240. “Threefield Noise Correlation via Thirdorder Nonlinear Optical Processes”, H. Zheng, U. Khadka, J. Song, Y. Zhang, and Min Xiao, Opt. Lett. 36, 2584 (2011).
239. “Simultaneous Control of Two Fourwave Mixing Fields via Atomic Spin Coherence”, Xihua Yang, J. Sheng, U. Khadka, and Min Xiao, Phys. Rev. A 83, 063812 (2011).
238. “Threecolour Entanglement Generated by an Injectionseeded Nondegenerate Optical Parametric Oscillator”, Y.B. Yu, Min Xiao, S.N. Zhu, Physics Letters A 375, 2278 (2011).
237. “Observation of Polarizationcontrolled Spatial Splitting of Fourwave Mixing in a Threelevel Atomic System”, Z. Wang, Y. Zhang, P. Li, S. Sang, C. Yuan, H. Zheng, C. Li, and Min Xiao, Applied Physics B—Lasers and Optics, 104, 633 (2011).
236. “Observation of AutleTownes Splitting in Sixwave Mixing”, Y. Zhang, P. Li, H. Zheng, Z. Wang, H. Chen, C. Li, R. Zhang, and Min Xiao, Optics Express 19, 7769 (2011).
235. “Quantum Interference of Stored Dualchannel Spinwave Excitations in a Single Tripod System”, H. Wang, S. Li, Z. Xu, X. Zhao, L. Zhang, J. Li, Y. Wu, C. Xie, K.C. Peng, and Min Xiao, Phys. Rev. A 83, 043815 (2011).
234. “Radiative Power of a Dipole in the Proximity of a Dielectric Interface: a case study of a quantumdot exciton transition dipole”, V.K. Komarala and Min Xiao, Semicond. Sci. Technol. 26, 075007 (2011).
233. “Fourwave Mixing Dipole Solitons in Laserinduced Atomic Grating”, Y.P. Zhang, Z. Wang, Z. Nie, C. Li, H. Chen, K. Lu, and Min Xiao, Physical Review Letters 106, 093904 (2011).
232. “Electromagnetically Induced Talbot Effect”, J. Wen, S. Du, H. Chen, and Min Xiao, Applied. Physics Letters 98, 081108 (2011).
231. “Measurement of acStark Shift by a Twophoton Dressing Process via Fourwave Mixing”, H. Zheng, U. Khadka, J. Song, Y. Zhang, and Min Xiao, Europhysics Letters 93, 23002 (2011).
230. “Understanding Cavity Resonances with Intracavity Dispersion Properties”, Jiteng Sheng, H. Wu, M. Mumba, J. GeaBanacloche, and Min Xiao, Phys. Rev. A 83, 023829 (2011).
229. “Theory of Nonlinear Talbot Effect”, J. Wen, Yong Zhang, S.N. Zhu, and Min Xiao, J. of Opt. Soc. Am. B 28, 275 (2011).
228. “Generation of Bright Quadricolor Continuousvariable Entanglement by Fourwave Mixing Process”, Y.B. Yu, J. Sheng, and Min Xiao, Phys. Rev. A 83, 012321 (2011).
227. “Photonassisted Tunneling Current in a Double QuantumDot Excitonic System", A. Joshi, S. S. Hassan, and Min Xiao, Applied Physics A 102, 537 (2011).
226. “Generation of frequencycorrelated narrowband biphotons from fourwave mixing in cold atoms”, S. Yun, J. Wen, P. Xu, Min Xiao, S.N. Zhu, Phys. Rev. A 82, 063830 (2010).
225. “Fourwave Mixing Gap Solitons”, Y.P. Zhang, Z. Wang, H. Zheng, C. Yuan, C. Li, K. Lu, and Min Xiao, Physical Review A 82, 053837 (2010).
224. “Evidence of AutlerTownes Splitting in Highorder Nonlinear Processes”, Y. Zhang, Z. Nie, Z. Wang, C. Li, F. Wen, and Min Xiao, Optics Letters, 35, 3420 (2010).
223. “Engineering Biphoton Wavepackets with Electromagnetically Induced Grating”, J. Wen, Y.H. Zhai, S. Du, and Min Xiao, Physical Review A, 82, 043814 (2010).
222. “Improving Spatial Resolution in Quantum Imaging beyond the Rayleigh Diffraction Limit Using Multipartite Entangled States”, J. Wen, S. Du, and Min Xiao, Physics Letters A 374, 3908 (2010).
221. “Atomic Optical Bistability in Two and Threelevel Systems: Perspectives and Prospects”, referred review article, A. Joshi and Min Xiao, Topical Review, J. of Modern Optics, 57, 1196 (2010).
220. “Nonlinear Talbot Effect”, Yong Zhang, J. Wen, S.N. Zhu, and Min Xiao, Physical Review Letters 104, 183901 (2010).
219. “Modulated Vortex Solitons of Fourwave Mixing”, Y. Zhang, Z. Nie, Y. Zhao, C. Li, R. Wang, J. Si, and Min Xiao, Optics Express 18, 10963 (2010).
218. “Controlling Blinking in Multilayered Quantum Dots”, R. Wang, Y. Zhang, C. Gan, J. Muhammad, and Min Xiao, Applied Physics Letters, 96, 151107 (2010).
217. “Upconversion Luminescence of Mn2+ Ions in Zn1xMgxS:Mn2+ Nanocrystals”, Yong Zhang, B. Wang, X. Liu, Y. Wang, and Min Xiao, Journal of Applied Physics, 107, 103502 (2010).
216. “Nonlinear Optical Properties of Er3+/Yb3+doped NaYF4 Nanocrystals”, V. Komarala, Y. Wang, and Min Xiao, Chemical Physics Letters, 490, 189 (2010).
215. “Controlling Enhancement and Suppression of Fourwave Mixing via Polarized Light”, C. Li, Y. Zhang, Z. Nie, Y. Du, R. Wang, J. Song, and Min Xiao, Phys. Rev. A 81, 033801 (2010).
214. “Control of Multitransparency Windows via Darkstate Phase Manipulation”, U. Khadka, Y. Zhang, and Min Xiao, Phys. Rev. A 81, 023830 (2010).
213. “Experimental Demonstration of Optical Switching and Routing via Fourwave Mixing Spatial Shift”, Z. Nie, H. Zheng, Y. Zhang, Y. Zhao, C. Zuo, C. Li, H. Chang, and Min Xiao, Optics Express, 18, 899 (2010).
212. “Triplyresonant Optical Parametric Oscillator by Fourwave Mixing with Rubidium Vapor inside an Optical Cavity”, X. Yu, Min Xiao, and J. Zhang, Appl. Phys. Lett., 96, 041101 (2010).
211. “Generation of Radially and Azimuthally Polarized Light by Optical Transmission through Concentric Circular Nanoslits in Ag Films”, F. Wang, Min Xiao, K. Sun, and Q.H. Wei, Optics Express, 18, 63 (2010).
210. “Secondharmonic Imaging from Modulated Domain Structure”, Yong Zhang, F. Wang, K. Geren, S.N. Zhu, and Min Xiao, Opt. Lett., 35, 178 (2010).
209. “Surface Plasmon Density of States at the Metaldielectric Interface: Dependence of Metal Layer Thickness and Dielectric Material”, V.K. Komarala, W.H. Guo, and Min Xiao, Journal of Applied Physics, 107, 014309 (2010).
208. “Bright Correlated Twin Beams from an Atomic Ensemble in the Optical Cavity”, H. Wu and Min Xiao, Phys. Rev. A 80, 063415 (2009).
207. “Controlled Spatial Beamsplitter Using Fourwave Mixing Images”, Y. Zhang, C. Zuo, H. Zheng, C. Li, Z. Nie, J. Song, H. Chang, and Min Xiao, Phys. Rev. A 80, 055804 (2009).
206. “Secondorder Talbot Effect with Entangled Photon Pairs”, K.H. Luo, J. Wen, X. Chen, Q. Liu, Min Xiao, L.A. Wu, Phys. Rev. A 80, 043820 (2009).
205. “Cerenkov Secondharmonic Arc from a Hexagonally Poled LiTaO3 Planar Waveguide”, Yong Zhang, X.P. Hu, G. Zhao, S.N. Zhu, and Min Xiao, J. of Physics D: Appl. Phys. 42, 215103 (2009).
204. “Modulating the Multiwave Mixing Processes via the Polarizable Dark States”, H. Zheng, Y. Zhang, U. Khadka, R. Wang, C. Li, Z. Nie, and Min Xiao, Optics Express, 17, 15468 (2009).
203. “Polarization Spectroscopy of Dressed Fourwave Mixing in a Threelevel Atomic System”, R. Wang, Y. Du, Y. Zhang, H. Zheng, Z. Nie, C. Li, Y. Li, J. Song, and Min Xiao, J. of Opt. Soc. Am. B 26, 1710 (2009).
202. “Splitting of AtomCavity Polariton Peaks for Threelevel Atoms in an Optical Cavity”, H. Wu, J. GeaBanacloche, and Min Xiao, Phys. Rev. A 80, 033806 (2009).
201. “Electromagnetically Induced Spatial Nonlinear Dispersion of Fourwave Mixing”, Y. Zhang, Z. Nie, H. Zheng, C. Li, J. Song, and Min Xiao, Phys. Rev. A 80, 013835 (2009).
200. “Observation of Enhancement and Suppression in Fourwave Mixing Processes”, C. Li, H. Zheng, Y. Zhang, Z. Nie, J. Song, and Min Xiao, Appl. Phys. Lett. 95, 041103 (2009).
199. “Multinormalmode Splitting of a Cavity in the Presence of Atoms: Towards the Superstrongcoupling Region”, X. Yu, D. Xiong, H. Chen, P. Wang, Min Xiao, and J. Zhang, Phys. Rev. A 79, Rapid Communications, 061803(R) (2009).
198. “Controlling Fourwave Mixing and Sixwave Mixing in MultiZeeman Atomic System with Electromagnetically Induced Transparency”, Y. Du, Y. Zhang, C. Zuo, C. Li, Z. Nie, H. Zheng, Y. Qi, R. Wang, J. Song, K. Lu, and Min Xiao, Phys. Rev. A 79, 063839 (2009).
197. “Secondharmonic Whisperinggallery Modes in ZnO Nanotetrapot”, Yong Zhang, H. Zhou, S. Liu, Z.R. Tian, and Min Xiao, Nano Letters 9, 2109 (2009).
196. “Observation of Lightinduced Localized Domaininversion Pattern Formation in KNbO3”, Y.L. Chen, Z. Lu, and Min Xiao, J. of Applied Crystallography, 42, 265 (2009).
195. “Direct Evidence of Interlevel Exciton Transitions Mediated by Single Phonons in a Semiconductor Quantum Dot Using Resonance Fluorescence Spectroscopy”, E.B. Flagg, J.W. Robertson, S. Founta, W. Ma, Min Xiao, G.J. Salamo, and C.K. Shih, Phys. Rev. Lett. 102, 097402 (2009).
194. “Secondorder Susceptibilities of ZnO Nanorods from Forward Secondharmonic Scattering”, K. Geren, S. Liu, H. Zhou, Yong Zhang, R. Tian, and Min Xiao, J. of Appl. Phys. 105, 063531 (2009).
193. “Resonantly Driven Coherent Oscillations in a Solidstate Quantum Emitter”, E.B. Flagg, A. Muller, J.W. Robertson, S. Founta, D.G. Deppe, Min Xiao, W. Ma, G.J. Salamo, and C.K. Shih, Nature Physics 5, 203207 (2009).
192. “Multiplicative Noiseinduced Probability Distributions in Threelevel Atomic Optical Bistability”, H. Wu, S. Singh, and Min Xiao, Phys. Rev. A 79, 023835 (2009).
191. “Competition between Raman and Rayleighenhanced Fourwave Mixing in Attosecond Polarization Beats”, C. Gan, Y. Zhang, Z. Nie, Y. Zhao, K. Lu, J. Shi, and Min Xiao, Phys. Rev. A 79, 023802 (2009).
190. “Temporal and Spatial Interference between Fourwave Mixing and Sixwave Mixing Channels”, Y. Zhang, U. Khadka, B. Anderson, and Min Xiao, Phys. Rev. Lett. 102, 013601 (2009).
189. “Interplay Among Multidressed Fourwave Mixing Processes”, H. Zheng, Y. Zhang, Z. Nie, C. Li, H. Chang, J. Song, and Min Xiao, Applied Physics Letters 93, 241101 (2008).
188. “Controlling Fluorescence Intermittency of a Single Colloidal CdSe/ZnS Quantum Dot in a Halfcavity”, Y. Zhang, V.K. Komarala, C. Rodriguez, and Min Xiao, Phys. Rev. B 78, Rapid Communications, 241301(R) (2008).
187. “Enhanced Fluorescence Intermittency in Mndoped Single ZnSe Quantum Dot”, Y. Zhang, C. Gan, J. Muhammad, D. Battaglia, X. Peng, and Min Xiao, J. of Physical Chemistry C 112, 2020020205 (2008).
186. “Phasesensitive Manipulations of Squeezed Vacuum Field in an Optical Parametric Amplifier inside an Optical Cavity”, J. Zhang, C. Ye, F. Gao, and Min Xiao, Phys. Rev. Lett. 101, 233602 (2008).
185. “Evidence of Lasing without Inversion in a Hot rubidium Vapor under Electromagneticallyinducedtransparency Conditions”, H. Wu, Min Xiao, and J. GeaBanacloche, Phys. Rev. A 78, Rapid Communications, 041802(R) (2008).
184. “Noiseinduced Switching via Fluctuating Atomic Coherence in an Optical Threelevel Bistable System”, A. Joshi and Min Xiao, J. of Opt. Soc. Am B 25, 2015 (2008).
183. “Transmission Spectrum of Dopplerbroadened, Twolevel Atoms in a Cavity in the Strong Coupling Regime”, J. GeaBanacloche, H. Wu, and Min Xiao, Phys. Rev. A 78, 023828 (2008).
182. “Spatial Interference between Generated Fourwave Mixing and Sixwave Mixing Signals”, B. Anderson, Y. Zhang, U. Khadka, and Min Xiao, Optics Letters, 33, 2029 (2008).
181. “Fluorescence Lifetime of Mndoped ZnSe Quantum Dots with Size Dependence”, C. Gan, Y. Zhang, D. Battaglia and X. Peng, and Min Xiao, Appl. Phys. Lett. 92, 241111 (2008).
180. “Atomic Control and Characterization of Surface Defect States of TiO2 Terminated SrTiO3 Single Crystals”, M. Kareev, S. Prosandeev, J. Liu, C. Gan, A. Kareev, J.W. Freeland, Min Xiao, and J. Chakhalian, Appl. Phys. Lett., 93, 061909 (2008).
179. “Interacting Multiwave Mixing in a Fivelevel Atomic System”, Z. Nie, H. Zheng, P. Li, Y. Yang, Y. Zhang, and Min Xiao, Phys. Rev. A 77, 063829 (2008).
178. “Efficient Energy Transfer between FourwaveMixing and Sixwave Mixing Processes via Atomic Coherence”, Y. Zhang, B. Anderson, and Min Xiao, Phys. Rev. A 77, Rapid Communications, 061801(R) (2008).
177. “Observation of Intracavity Electromagneticallyinduced Transparency and Polariton Resonances in a Dopplerbroadened Medium”, H. Wu, J. GeaBanacloche, and Min Xiao, Phys. Rev. Lett. 100, 173602 (2008).
176. “Whitelight Cavity with Competing Linear and Nonlinear Dispersions”, H. Wu and Min Xiao, Phys. Rev. A 77, Rapid Communications, 031801(R) (2008).
175. “Nonclassical Light Generation via a Fourlevel InvertedY System”, J. Wen, S. Du, Y. Zhang, Min Xiao, M.H. Rubin, Phys. Rev. A 77, 033816 (2008).
174. “Coexistence of Fourwave, Sixwave, and Eightwave Mixing Processes in Multidressed Atomic Systems”, Y. Zhang, B. Anderson, and Min Xiao, J. Phys. B: At. Mol. Opt. Phys. 41, 045502 (2008).
173. “Superposition States of Light in a Threephoton Absorbing Dissipative Medium”, S.T. Gevorgyan, Min Xiao, V.O. Chaltykyan, J. Modern Optics 55, 1923 (2008).
172. “Interacting Dark States with Enhanced Nonlinearity in an Ideal Fourlevel Tripod Atomic System”, Y. Han, J. Xiao, Y. Liu, C. Zhang, H. Wang, Min Xiao, and K. Peng, Phys. Rev. A 77, 023824 (2008).
171. “Farfield Secondharmonic Fingerprint of Twinning in Single ZnO Rods”, S.W. Liu, H.J. Zhou, A. Ricca, R. Tian, and Min Xiao, Phys. Rev. B 77, 113311 (2008).
170. “Linear and Nonlinear Optical Refractions of CR39 Composite with CdSe Nanocrystals”, C. Gan, Y. Zhang, S. Liu, and Min Xiao (with Yunjun Wang), Optical Materials, 30, 1440 (2008).
169. “Bistability and FieldInduced Transparency in Superconducting Quantum Interference Devices”, A. Joshi and Min Xiao, Phys. Rev. B 77, 024502 (2008).
168. “Controlling Fourwave and Sixwave Mixing Processes in Multilevel Atomic Systems”, Y. Zhang, U. Khadka, B. Anderson, and Min Xiao, Appl. Phys. Lett., 91, 221108 (2007).
167. “Resonance Fluorescence from a Coherently Driven Semiconductor Quantum Dot in a Cavity”, A. Muller, E.B. Flagg, P. Bianucci, X.Y. Wang, D.G. Deppe, W. Ma, J. Zhang, G.J. Salamo, Min Xiao, and C.K. Shih, Phys. Rev. Lett., 99, 187402 (2007).
166. “Size Dependence of Nonlinear Optical Absorption and Refraction of Mndoped ZnSe Nanocrystals”, C. Gan and Min Xiao (with D. Battaglia, N. Pradhan, and X. Peng), Appl. Phys. Lett., 91, 201103 (2007).
165. “Cavity Linewidth Narrowing and Broadening due to Competing Linear and Nonlinear Dispersions”, H. Wu and Min Xiao, Optics Letters, 32, 3122 (2007).
164. “Measurement of Laserinduced Refractive Index Change of Inverted Ferroelectric Domain LiNbO3”, Y. Chen, S. Liu, D. Wang, T. Chen, and Min Xiao, Applied Optics, 46, 7693 (2007).
163. “Opening Fourwave Mixing and Sixwave Mixing Channels via Dual Electromagnetically Induced Transparency Windows”, Y.P. Zhang, A.W. Brown, and Min Xiao, Phys. Rev. Lett. 99, 123603 (2007).
162. “Growth of and Optical Emission from GaMnAs Thin Films Grown by Molecular Beam Epitaxy”, J. Xu, S. Liu, Min Xiao, and P.M. Thibado, J. Vac. Sci. Technol. B 25, 1467 (2007).
161. “Stochastic Resonance with Multiplicative Noise in a ThreeLevel Atomic Bistable System”, H. Wu, A. Joshi, and Min Xiao, J. of Modern Optics, 54, 2441 (2007).
160. “Competition between Two Fourwave Mixing Channels via Atomic Coherence”, Y.P. Zhang, B. Anderson, A.W. Brown, and Min Xiao, Appl. Phys. Lett., 91, 061113 (2007).
159. “Ideal Coherent Nonlinear Media via Coherentlyprepared Atomic Systems”, Min Xiao and H. Wang, Physics (in Chinese, similar to <<Physics Today>> in US), invited review (refereed), 36, issue 9, p.667 (August, 2007).
158. “Singlephoton Alloptical Switching Using Coupled Microring Resonators”, W. Yang, A. Joshi, and Min Xiao, PramanaJ. of Physics (Indian Academy of Sciences), 69, 219 (2007).
157. “Intermixing between Fourwave and Sixwave Mixing in a Fourlevel Atomic System”, Y.P. Zhang, A.W. Brown, C. Gan, and Min Xiao, J. Phys. B: At. Mol. Opt. Phy., 40, 3319 (2007).
156. “Reflective Second Harmonic Generation near Resonance in the Epitaxial AlDoped ZnO Thin Film”, S.W. Liu, J.L. Weerasinghe, and Min Xiao (with J. Liu, J. Weaver, C.L. Chen, and W. Donner), Optics Express, 15, 10666 (2007).
155. “Generalized Dressed and DoublyDressed MultiWave Mixing”, Y. Zhang and Min Xiao, Optics Express, 15, 7182 (2007).
154. “Preparation and Determination of SpinPolarized States in MultiZeemanSublevel Atoms”, B. Wang, Y. Han, J. Xiao, X. Yang, H. Wang, Min Xiao, and C. Xie, Phys. Rev. A 75, Rapid Communications, 051801(R) (2007).
153. “Domain Microstructures and Ferroelectric Phase Transition in Pb0.35Sr0.65TiO3 Films Studied by SHG in Reflection Geometry”, S.W. Liu, S. Jolly, and Min Xiao, (with C.L. Chen, J. Liu, Z. Yuan, W. Zhu), J. Appl. Phys., 101, 104118 (2007).
152. “Generation of a TwoMode Generalized Coherent State in a Cavity QED System”, A. Joshi, S.S. Hassan, and Min Xiao, Physics Letter A 367, 415 (2007).
151. “Enhancement of SixWave Mixing by Atomic Coherence in a FourLevel InvertedY System”, Y. Zhang and Min Xiao, Appl. Phys. Lett., 90, 111104 (2007).
150. “Violation of Bell’s Inequality for Two Coupled Quantum Dots Confined in a Cavity”, A. Joshi, B. Anderson, and Min Xiao, Phys. Rev. B 75, 125304 (2007).
149. “Observation of Interference between Fourwave Mixing and Sixwave Mixing”, Y. Zhang, A.W. Brown, and Min Xiao, Optics Letters, 32, 1120 (2007).
148. “Second Harmonic Generation and Ferroelectric Phase Transition in Thick and Ultrathin Pb0.35Sr0.65TiO3 Films on (001) MgO Substrates”, S. Liu, J. Chakhalian, Min Xiao (with C. Chen), Appl. Phys. Lett., 90, 042901 (2007).
147. “Electrical and Optical Studies of GaMnAs/GaAs(001) Thin Films Grown by Molecular Beam Epitaxy”, J.F. Xu, S.W. Liu, Min Xiao, P.M. Thibado, J. of Crystal Growth, 301302, p.101 (2007).
146. “MultiDarkState Resonance in Cold MultiZeemanSublevel Atoms”, B. Wang, Y. Han, J. Xiao, X. Yang, C. Xie, H. Wang, and Min Xiao, Optics Letters, 31, 3647 (2006).
145. “Matched Ultraslow Propagation of Highly Efficient Fourwave Mixing in a Closely Cycled Doubleladder System”, Y. Zhang, A.W. Brown, and Min Xiao, Phys. Rev. A 74, 053813 (2006).
144. “Optical Switching in Arrays of Quantum Dots with DipoleDipole Interactions”, J. GeaBanacloche, M. Mumba, and Min Xiao, Phys. Rev. B 74, 165330 (2006).
143. “CavityQEDBased Unconventional Geometric Phase Gates with Bichromatic Field Modes”, A. Joshi and Min Xiao, Phys. Lett., A 359, 390 (2006).
142. “Three Qubit QuantumGate Operation in a Cavity QED System”, A. Joshi and Min Xiao, Phys. Rev. A 74, 052318 (2006).
141. “Optimization of a Dual Pumped LBand Erbiumdoped Fiber Amplifier by Genetic Algorithm”, C. Cheng and Min Xiao, Journal of Lightwave Technology, 24, 3824 (2006).
140. “Controlled Polarization Rotation of an Optical Field in MultiZeemanSublevel Atoms”, S. Li, B. Wang, X. Yang, Y. Han, H. Wang, Min Xiao, K.C. Peng, Phys. Rev. A 74, 033821 (2006).
139. “Enhanced DipoleDipole Interactions of CdSe/CdS Nanocrystal Quantum Dots inside a Planar Microcavity”, X. Wang, C.K. Shih, J. Xu, and Min Xiao, Appl. Phys. Lett. 89, 113114 (2006).
138. “Stochastic Resonance in Atomic Optical Bistability”, A. Joshi and Min Xiao, Phys. Rev. A 74, 013817 (2006).
137. “Controlling the Polarization Rotation of an Optical Field via Asymmetry in Electromagnetically Induced Transparency”, B. Wang, S. Li, J. Ma, H. Wang, K.C. Peng, and Min Xiao, Phys. Rev. A 73, Rapid Communications, 051801(R) (2006).
136. “Modified TwoPhoton Absorption and Dispersion of Ultrafast ThirdOrder Polarization Beats via Twin Noisy Driving Fields”, Y. Zhang, C. Gan, and Min Xiao, Phys. Rev. A 73, 053801 (2006).
135. “Electrooptic Switch in Ferroelectric Thin Films Mediated by Surface Plasmons”, S. Liu and Min Xiao, Applied Physics Letters 88, 143512 (2006).
134. “Control of Nonlinear Optical Processes in MultiLevel Atomic Systems”, A. Joshi and Min Xiao, Progress in Optics, Ed. E. Wolf, 49, 97175 (2006).
133. “Controlled Dynamic Instability and Route to Chaos with ThreeLevel Atoms inside an Optical Ring Cavity”, W. Yang, A. Joshi, H. Wang, and Min Xiao, Physics (in Chinese), invited review (refereed), Vol.35, p.202 (2006).
132. "Nonlinear Optical Absorption and Refraction of Epitaxial Ba0.6TiO3 Thin Films on (001) MgO Substrates", S. Liu, J. Xu, D. Guzun, G.J. Salamo, C.L. Chen, Y. Lin, and Min Xiao, Applied Physics B 82, 443 (2006).
131. “Coupling between Semiconductor Quantum Dots and TwoDimensional Surface Plasmons”, J. Zhang, Y.H. Ye, X. Wang, P. Rochon, and Min Xiao, Phys. Rev. B 72, Rapid Communications, 201306(R) (2005).
130. “Phase Gate with a FourLevel InvertedY System”, A. Joshi and Min Xiao, Phys. Rev. A 72, 062319 (2005).
129. “Lasing Action in Colloidal CdS/CdSe/CdS Quantum Wells”, J. Xu and Min Xiao, Appl. Phys. Lett. 87, 173117 (2005).
128. “Chaos in an Electromagnetically Induced Transparency Medium inside an Optical Cavity”, W. Yang, A. Joshi, and Min Xiao, Phys. Rev. Lett. 95, 093902 (2005).
127. “Controlling Subluminal to Superluminal Behavior of Group Velocity with Squeezed Reservoir”, A. Joshi, S.S. Hassan, and Min Xiao, Phys. Rev. A 72, 055803 (2005).
126. “Strong Optical Nonlinearity in StrainInduced Laterally Ordered In0.4Ga0.6As Quantum Wires on GaAs (311)A Substrate”, Y.I. Mazur, Z.M. Wang, G.G. Tarasov, H. Wen, V. Strelchuk, D. Guzun, Min Xiao, G.J. Salamo, T.D. Mishima, G.D. Lian, and M.B. Johnson, J. Appl. Phys. 98, 053711 (2005).
125. “Photoluminescence Intermittency of InGaAs/GaAs Quantum Dots Confined in a Planar Microcavity”, X. Wang, W. Ma, J. Zhang, G.J. Salamo, Min Xiao, C.K. Shih, Nano Letters 5, 1873 (2005).
124. “Controlled Release of Stored Optical Pulses in an Atomic Ensemble”, B. Wang, S. Li, H. Wu, H. Chang, H. Wang, and Min Xiao, Phys. Rev. A 72, 043801 (2005).
123. “Exciton Radiative Recombination in Spherical CdS/CdSe/CdS QuantumWell Nanostructures”, J. Xu, D. Battaglia, X. Peng, and Min Xiao, Appl. Phys. Lett. 87, 043107 (2005).
122. “Frequency Detuning and Power Dependence of Reflection from an Electromagnetically Induced Absorption Grating”, A.W. Brown and Min Xiao, J. of Modern Optics 52, 2365 (2005).
121. “Optimization of an ErbiumDoped Fiber Amplifier with Radial Effects”, C. Cheng and Min Xiao, Optics Communications 254, 215 (2005).
120. “DarkState Polaritons Using Spontaneously Generated Coherence”, A. Joshi and Min Xiao, Euro. Phys. J. D 35, 547 (2005).
119. “Generalized DarkState Polaritons for Photon Memory in MultiLevel Atomic Media”, A. Joshi and Min Xiao, Phys. Rev. A 71, Rapid Communications, 041801(R) (2005).
118. “AllOptical Switching and Routing Based on an Electromagnetically Induced Absorption Grating”, A.W. Brown and Min Xiao, Opt. Lett. 30, 699 (2005).
117. “Photoluminescence from Colloidal CdS/CdSe/CdS Quantum Wells”, J. Xu, D. Battaglia, X. Peng and Min Xiao, J. of Opt. Soc. Am. B 22, 1112 (2005).
116. “Dynamical Hysteresis in a ThreeLevel Atomic System”, A. Joshi, W. Yang, and Min Xiao, Opt. Lett. 30, 905 (2005).
115. “Resonant Raman Scattering and Atomic Force Microscopy of InGaAs/GaAs Multilayer Nanostructures with Quantum Dots”, Ya. M. Valakh, V.V. Strelchuk, A.F. Kolomys, Yu. I. Mazur, Min Xiao, and G.J. Salamo, Semiconductors 39, 127 (2005).
114. “Interdot Carrier Transfer in Asymmetric Bilayer InAs/GaAs Quantum Dot Structures”, Y.I. Mazur, Z. Wang, Min Xiao, G.J. Salamo, J.W. Tomm, V.Talalaev, T. Elsaesser, and H. Kissel, Appl. Phys. Lett. 86, 063102 (2005).
113. “Modulation Transfer in an Electromagnetically Induced Transparency System”, A. W. Brown and Min Xiao, Phys. Rev. A 70, 053830 (2004).
112. “Hysteresis Loop with Controllable Shape and Direction in an Optical Ring Cavity”, A. Joshi, W. Yang, and Min Xiao, Phys. Rev. A 70, Rapid Communications, 041802(R) (2004).
111. “Anisotropic Photoconductivity of InGaAs Quantum Dot Chains Measured by Terahertz Pulse Spectroscopy”, D. Cooke, F.A. Hegmann, Y. Mazur, W. Ma, X. Wang, Z. Wang, Min Xiao, G.J. Salamo, T. Mishima, and M. Johnson, Appl. Phys. Lett. 85, 3839 (2004).
110. “A Simple Method for Frequency Locking of the Extended Cavity Diode Laser”, W. Yang, A. Joshi, H. Wang, and Min Xiao, Applied Optics 43, 5547 (2004).
109. “Controlling Dynamic Instability of ThreeLevel Atoms inside an Optical Ring Cavity”, W. Yang, A. Joshi, and Min Xiao, Phys. Rev. A 70, 033807 (2004).
108. “Enhancement of Cavity Ringdown Effect Based on Electromagnetically Induced Transparency”, W. Yang, A. Joshi, and Min Xiao, Opt. Lett. 29, 2133 (2004).
107. “Vacuum Rabi Splitting for Multilevel Electromagnetically Induced Transparency System”, A. Joshi and Min Xiao, Euro. Phys. J. D 30, 431 (2004).
106. “Optical Bistability in a ThreeLevel Semiconductor QuantumWell System”, A. Joshi and Min Xiao, Applied Physics B 79, 65 (2004).
105. “Suppression of Radiative Decay of CdTe Quantum Dots in Photonic Crystal with Pseudogap”, J. Zhang, X. Wang, Y. Ye, and Min Xiao, J. of Modern Optics 51, 2493 (2004).
104. “Atomic Coherence Effect on JaynesCummings Model with Atomic Motion”, A. Joshi and Min Xiao, J. Opt. Soc. of Am. B 21, 1685 (2004).
103. “Optical Limiting and Enhanced Optical Nonlinearity in BoronDoped Carbon Nanotubes”, J. Xu, Min Xiao, R. Czerw, and D.L. Carroll, Chemical Physics Letters 389, 247 (2004).
102. “Effect of Spontaneously Generated Coherence on the Dynamics of Multilevel Atomic System”, A. Joshi, W. Yang, and Min Xiao, Phys. Lett. A 325, 30 (2004).
101. “Environmental Effects on the Photoluminescence of Highly Luminescent CdSe and CdSe/ZnS Core/Shell Nanocrystals in Polymer Thin Films”, A. Nazzal, X. Wang, L. Qu, W. Yu, Y. Wang, X. Peng, and Min Xiao, Journal of Physical Chemistry B 108, 5507 (2004).
100. “Effects of SideCoupling on the Phase Response of Cascaded Microring AllPass Filters”, W. Yang, A. Joshi, and Min Xiao, Optics Communications 232, 209 (2004).
99. “On the Dynamical Evolution of a ThreeLevel Atom with Atomic Motion in a Lossless Cavity”, A. Joshi and Min Xiao, Optics Communications 232, 273 (2004).
98. “On the Bichromatic Excitation of a TwoLevel Atom with Squeezed Light”, A. Joshi, R. Vyas, S. Singh, and Min Xiao, European Phys. Journal D 29, 95 (2004).
97. “Polarization Spectroscopy of InGaAs/GaAs Quantum Wires Grown on (331)B GaAs Template with Nanoscale Fluctuations”, X. Wang, Z. Wang, V. Yazdanpanah, G.J. Salamo, and Min Xiao, J. of Appl. Phys., Communications, 95, 1609 (2004).
96. “Optical Multistability in ThreeLevel Atoms inside an Optical Ring Cavity”, A. Joshi and Min Xiao, Phys. Rev. Lett. 91, 143904 (2003).
95. “Electromagnetically Induced Transparency and Its Dispersion Properties in a FourLevel InvertedY Atomic System”, A. Joshi and Min Xiao, Phys. Lett. A 317, 370 (2003).
94. “Photoluminescence UpConversion in Colloidal CdTe Quantum Dots”, X. Wang, W. Yu, J. Zhang, J. Aldana, X. Peng, and Min Xiao, Phys. Rev. B 68, 125318 (2003).
93. “Hidden Resonant Excitation of Photoluminescence in BiLayer Arrays of InAs/GaAs Quantum Dots”, Y. Mazur, Z.M. Wang, G.J. Salamo, and Min Xiao (with G.G. Tarasov, Z.Y. Zhuchenko, W.T. Masselink, and H. Kissel), Appl. Phys. Lett. 83, 1866 (2003).
92. “SurfaceRelated Emission in Highly Luminescent CdSe Quantum Dots”, X. Wang, L. Qu, J. Zhang, X. Peng, and Min Xiao, Nano Letters 3, 1103 (2003).
91. “Effect of Spontaneously Generated Coherence on Optical Bistability in a ThreeLevel LType Atomic System”, A. Joshi, W. Yang, and Min Xiao, Phys. Lett., A 315, 203 (2003).
90. “Controlling SteadyState Switching in Optical Bistability”, A. Brown, A. Joshi, and Min Xiao, Appl. Phys. Lett. 83,1301 (2003).
89. “InGaAs/GaAs ThreeDimensionallyOrdered Array of Quantum Dots”, Y. Mazur, W. Ma, X. Wang, Z.M. Wang, G.J. Salamo, and Min Xiao (T.D. Mishima and M.B. Johnson), Appl. Phys. Lett. 83, 987 (2003).
88. “Effects of Quantum Interference on Optical Bistability in ThreeLevel VType Atomic System”, A. Joshi, W. Yang, and Min Xiao, Phys. Rev. A 68, 015806 (2003).
87. “PhotoOxidationEnhanced Coupling in DenselyPacked CdSe QuantumDot Films”, X. Wang, J. Zhang, A. Nazzal, and Min Xiao, Appl. Phys. Lett. 83, 162 (2003).
86. “Modified Spontaneous Emission of CdTe Quantum Dots inside Photonic Crystal”, J.Y. Zhang, X.Y. Wang, Y.H. Ye, and Min Xiao, Opt. Lett. 28, 1430 (2003).
85. “PhotoActivated CdSe Nanocrystals as Nanosensors for Gases”, A.Y. Nazzal, L. Qu, X. Peng, and Min Xiao, Nano Letters 3, 819 (2003).
84. “Controlled Optical Bistability in a ThreeLevel Atomic System”, A. Joshi, A.W. Brown, H. Wang, and Min Xiao, Phys. Rev. A 67, Rapid Communications, 041801(R) (2003).
83. “HighEfficiency Blue Light Generation by Frequency Doubling of Picosecond Pulses in a Thick KNbO3 Crystal”, Y. Li, D. Guzun, G. Salamo, and Min Xiao, J. Opt. Soc. Am. B 20, 1285 (2003).
82. “Novel Linear and Nonlinear Optical Properties of Electromagnetically Induced Transparency Systems”, Min Xiao, Special Issue on Nontraditional Forms of Light, IEEE Journal of Selected Topics in Quantum Electronics 9, 86 (2003).
81. “Piezoelectric Effect in Elongated (In,Ga)As Islands on GaAs(100)”, W. Ma, X.Y. Wang, M. Hussein, J. Shultz, Min Xiao, and G.J. Salamo, Phys. Rev. B 67, 035315 (2003).
80. “Electronic Structure Transformation from a QuantumDot to a QuantumWire System: Photoluminescence Decay and Polarization of Colloidal CdSe Quatum Rods”, X. Wang, J. Zhang, A. Nazzal, M. Darragh, and Min Xiao, Appl. Phys. Lett. 81, 4829 (2002).
79. “Light Controlling Light with Enhanced Kerr Nonlinearity”, Min Xiao, H. Wang, and D. Goorskey, Optics and Photonics News, feature article, 13, p.44 (September, 2002).
78. “Lattice Contraction in FreeStanding CdSe Nanocrystals”, J. Zhang, X. Wang, and Min Xiao (with L. Qu and X. Peng), Appl. Phys. Lett. 81, 2076 (2002).
77. “Photoluminescence Study of Carrier Transfer among VerticallyAligned DoubleStacked InAs/GaAs Quantum Dot Layers”, Yu. I. Mazur, X. Wang, Z. Wang, G.J. Salamo, and Min Xiao (with H. Kissel), Appl. Phys. Lett. 81, 2469 (2002).
76. “Controlling Light by Light with ThreeLevel Atoms inside an Optical Cavity”, H. Wang, D. Goorskey, and Min Xiao, Opt. Lett. 27, 1354 (2002).
75. “Modification of Spontaneous Emission from CdSe/CdS Quantum Dots in the Presence of a Semiconductor Interface”, J. Zhang, X. Wang, and Min Xiao, Opt. Lett. 27, 1253 (2002).
74. “Controlling Cavity Field with Enhanced Kerr Nonlinearity in ThreeLevel Atoms”, H. Wang, D. Goorskey, and Min Xiao, Phys. Rev. A 65, Rapid Communications, 051802(R) (2002).
73. “Coherent Microwave Generation in Nonlinear Photonic Crystal”, Y. Lu, Min Xiao, and G.J. Salamo, IEEE, J. of Quantum Electronics 38, 481 (2002).
72. “Dependence of Enhanced KerrNonlinearity on CouplingPower in a ThreeLevel Atomic System”, H. Wang, D. Goorskey, and Min Xiao, Opt. Lett. 27, 258 (2002).
71. “Photoluminescence from Single CdSe Quantum Rods”, X. Chen, A.Y. Nazzal, and Min Xiao (with Z. Peng, and X. Peng), J. of Luminescence 97, 205 (2002).
70. “Effects of a HighlyDispersive Atomic Medium inside an Optical Cavity”, D. Goorskey, H. Wang, and Min Xiao, J. of Modern Opt. 49, 305 (2002).
69. “Bistability and Instability of ThreeLevel Atoms inside an Optical Cavity”, H. Wang, D.J. Goorskey, and Min Xiao, Phys. Rev. A 65, Rapid Communications, 011801(R) (2002).
68. “Atomic Coherence Induced Kerr Nonlinearity Enhancement in Rb Vapor”, H. Wang, D. Goorskey, and Min Xiao, J. of Modern Opt. 49, 335 (2002).
67. “Experimental Demonstration of Electromagnetic Induced Transparency and Dispersion Effects in Cs Atom Vapour”, J.X. Zhang, R.F. Dong, H. Chang, C.D. Xie, K.C. Peng, and Min Xiao, Chin. Phys. Lett. 18, 1586 (2001).
66. “A New Semiclassical Model to Analyze SubPoissonian Light in HighImpedancedriven Semiconductor Light Emitters”, J. Yin, Y. Wang, Min Xiao, and Y. Wang, Phys. Lett. A 283, 44 (2001).
65. “Polarization Spectroscopy of Single CdSe Quantum Rods”, X. Chen, A. Nazzal, D. Goorskey, and Min Xiao (with Z.A. Peng and X. Peng), Phys. Rev. B 64, 245304 (2001).
64. “Enhanced Kerr Nonlinearity via Atomic Coherence in a ThreeLevel Atomic System”, H. Wang, D. Goorskey, and Min Xiao, Phys. Rev. Lett. 87, 073601 (2001).
63. “WideBandwidth HighFrequency ElectroOptic Modulator Based on Periodically Poled LiNbO3”, Y.Q. Lu, Min Xiao, and G.J. Salamo, Appl. Phys. Lett. 78, 1035 (2001).
62. “CavityLinewidth Narrowing via Electromagnetically Induced Transparency”, H. Wang, D.J. Goorskey, W.H. Burkett, and Min Xiao, Opt. Lett. 25, 1732 (2000).
61. “Wavelength Locking of Multiple Diode Lasers by Multiplexed Gratings in a Photorefractive Crystal”, C. Yang and Min Xiao, Appl. Phys. Letts. 77, 2277 (2000).
60. “Compression and Broadening of PhaseConjugate Pulses in Photorefractive SelfPumped Phase Conjugators”, C. Yang, Min Xiao, and M. Kaczmarek, J. of Opt. Soc. Am. B 17, 1390 (2000).
59. “ThreeLevel Atoms inside a Degenerate Optical Parametric Oscillator: SteadyState Behaviors”, F.A. Montes and Min Xiao, Phys. Rev. A 62, 023818 (2000).
58. “Degenerate Optical Parametric Oscillator Coupling with N TwoLevel Atoms: Effects of Detuning in the Optical Spectra”, F.A. Montes, W.H. Burkett, and Min Xiao, J. Opt. B: Quantum and Semoclassical Optics 2, 497 (2000).
57. “Pulse Evolution in a Photorefractive SelfPumped Phase Conjugator with Transmission Grating Geometry”, C. Yang and Min Xiao, IEEE Journal of Quantum Electronics 36, 698 (2000).
56. “BlueLight Generation in SinglePass Frequency Doubling of Femtosecond Pulses in KNbO3”, D. Guzun, Y. Li, and Min Xiao, Optics Communications 180, 367 (2000).
55. “Inhomogeneous BroadeningDependent Spectral Features in FourLevel Atomic System”, W.H. Burkett, Y. Li, and Min Xiao, J. of Opt. Soc. Am. B 17, 293 (2000).
54. “Possibility of an OpticallyTrapped BoseEinstein Condensation”, J. Yin, Y. Zhu, Y. Wang, and Min Xiao, Chinese Physics Letters (in English) 16, 350 (1999).
53. “Transient Spectroscopy with a CurrentSwitched Semiconductor Diode Laser”, Y. Li and Min Xiao, J. Opt. B: Quantum & Semiclass. Opt. 1, 541 (1999).
52. “SubShotNoiseLimited Optical Heterodyne Detection Using an AmplitudeSqueezed Local Oscillator”, Y. Li, D. Guzun, and Min Xiao, Phys. Rev. Lett. 82, 5225 (1999).
51. “QuantumNoise Measurements in HighEfficiency SinglePass SecondHarmonic Generation with Femtosecond Pulses”, Y. Li, D. Guzun, and Min Xiao, Opt. Lett. 24, 987 (1999).
50. “N TwoLevel Atoms in a Driven Optical Cavity: Quantum Dynamics of Forward Photon Scattering for Weak Incident Fields”, R.J. Brecha, P.R. Rice, and Min Xiao, Phys. Rev. A 59, 2392, (1999).
49. “An Alternate Approach for Deriving Positive PRepresentation”, H. Fan and Min Xiao, Phys. Lett. A 244, 256 (1998).
48. “Nondegenerate FourWave Mixing in a DoubleL System under the Influence of Coherent Population Trapping”, B. L, W.H. Burkett, and Min Xiao, Opt. Lett. 23, 804 (1998).
47. “Generation and Applications of AmplitudeSqueezed States of Light from Semiconductor Diode Lasers”, Y. Li and Min Xiao, Optics Express, Focus Issue: Experiments on Generation and Application of Quantum Light States 2, 110 (February, 1998).
46. “Electromagnetically Induced Grating: Homogeneously Broadened Medium”, H.Y. Ling, Y. Li, and Min Xiao, Phys. Rev. A 57, 1338 (1998).
45. “Influence of InjectionCurrent Noise on the Spectral Characteristics of Semiconductor Lasers”, W.H. Burkett, B. L, and Min Xiao, IEEE Journal of Quantum Electronics 33, 2111 (1997).
44. “Frequency Matching Effect in Electromagnetically Induced Transparency”, B. L, W.H. Burkett, and Min Xiao, Optics Communications 141, 269 (1997).
43. “Electromagnetically Induced Transparency with Variable CouplingLaser Linewidth”, B. L, W.H. Burkett, and Min Xiao, Phys. Rev. A 56, 976 (1997).
42. “SubShot Noise Laser Doppler Anemometry with AmplitudeSqueezed Light”, Y. Li, P. Lynam, Min Xiao, and P.J. Edwards, Phys. Rev. Lett. 78, 3105 (1997).
41. "NumberDifference  Phase Uncertainty Relation for NFM Operational Quantum Phase Description", H. Fan and Min Xiao, Phys. Lett. A 227, 192 (1997).
40. "Construction of Optical Networks by Virture of the IWOP Technique", H. Fan and Min Xiao, Quantum & Semiclass. Opt. 9, 53 (1997).
39. "A Convenient Representation for TwoMode Phase Operator", H. Fan and Min Xiao, Phys. Lett. A 222, 299 (1996).
38. "Dual Eigenkets of the SusskindGlogower Phase Operator", H. Fan and Min Xiao, Phys. Rev. A 54, 5295 (1996).
37. "Squeezing and Wigner Operator in the Representation of Rotated Quadrature Phases", H. Fan and Min Xiao, Mod. Phys. Lett. B 10, 989 (1996).
36. "A Special Type of Squeezed Coherent State", H. Fan and Min Xiao, Phys. Lett. A 220, 81 (1996).
35. "Complex P Representation of Density Matrix Obtained via Creation Operator's Eigenvectors", H. Fan and Min Xiao, Phys. Lett. A 219, 175 (1996).
34. "Enhancement of NonDegenerate FourWave Mixing Using Electromagnetically Induced Transparency in Rubidium Atoms", Y. Li and Min Xiao, Optics Letters 21, 1064 (1996).
33. "Fock Representation for TwoMode Quantum Phase Operators' Eigenstates", H. Fan and Min Xiao, Quantum & Semiclass. Opt. 8, 393 (1996).
32. "Coherent Transient Amplification in InhomogenouslyBroadened Rubidium Atoms by Diode Laser FrequencySwitching", Y. Li, W.H. Burkett, and Min Xiao, Optics Letters 21, 982 (1996).
31. "Inversionless Lasing and Photon Statistics in a VType Atomic System", Y. Zhu, A.I. Rubiera, and Min Xiao, Phys. Rev. A 53, 1065 (1996).
30. "Coherent Population Trapping and Electromagnetically Induced Transparency in MultiZeemanSublevel Atoms", H.Y. Ling, Y. Li, and Min Xiao, Phys. Rev. A 53, 1014 (1996).
29. "A Single Mode Diode Laser with Large Tunable Range Based on Lower Grating Feedback", S. Jin, Y. Li, and Min Xiao, Applied Optics 35, 1436 (1996).
28. "Observation of Oscillatory Energy Exchange in a Coupled AtomCavity System", R.J. Brecha, L.A. Orozco, M.G. Raizen, Min Xiao, and H.J. Kimble, J. Opt. Soc. Am. B 12, 2329 (1995).
27. "Hyperfine Spectroscopy of HighlyExcited Atomic States Based on Atomic Coherence", S. Jin, Y. Li, and Min Xiao, Optics Communications 119, 90 (1995).
26. "Transient Properties of Electromagnetically Induced Transparency in ThreeLevel Atoms", Y. Li and Min Xiao, Optics Letters 20, 1489 (1995).
25. "Observation of Quantum Interference between Dressed States in Electromagnetically Induced Transparency", Y. Li and Min Xiao, Phys. Rev. A 51, 4959 (1995).
24. "Electromagnetically Induced Transparency in a ThreeLevel LType System in Rubidium Atoms", Y. Li and Min Xiao, Phys. Rev. A 51, Rapid Communications, 2703(R), (1995).
23. "Observation of Electromagnetically Induced Change of Absorption in Multilevel Rubidium Atoms", Y. Li, S. Jin, and Min Xiao, Phys. Rev. A 51, Rapid Communications, 1754(R) (1995).
22. "Measurement of Dispersive Properties of Electromagnetically Induced Transparency in Rubidium Atoms", Min Xiao, Y. Li, S. Jin, and J. GeaBanacloche, Phys. Rev. Lett. 74, 666 (1995).
21. "ElectromagneticallyInduced Transparency in LadderType, InhomogeneouslyBroadened Media: Theory and Experiment", J. GeaBanacloche, Y. Li, S. Jin, and Min Xiao, Phys. Rev. A 51, 576 (1995).
20. "Observation of New Domain Structures in Fe:KNbO3 Crystals", Z. Lu and Min Xiao, J. of Appl. Phys. 76, 4451 (1994).
19. "Intensity Characteristics of Inversionless Lasers from Induced Atomic Coherence", Y. Zhu, Min Xiao, and Y. Zhao, Phys. Rev. A 49, 4016 (1994).
18. "Comments on <Lasing without Inversion in a V System due to Trapping of Modified Atomic States>", Y. Zhu and Min Xiao, Phys. Rev. A 49 (refereed), 2203 (1994).
17. "Extra Intracavity Squeezing of a Degenerate Optical Parametric Oscillator Coupling with N TwoLevel Atoms", S. Jin and Min Xiao, Phys. Rev. A 49, 499 (1994).
16. "Optical Spectra from a System of N Twolevel Atoms Coupling to a Degenerate Optical Parametric Oscillator", S. Jin and Min Xiao, Phys. Rev. A 48, 1473 (1993).
15. "Amplitude Squeezing and Transition from Lasing with Inversion to Lasing without Inversion in a FourLevel Laser", Y. Zhu and Min Xiao, Phys. Rev. A 48, 3895 (1993).
14. "Inversionless Laser from a Closed MultiLevel System", Y. Zhu, O.C. Mullins, and Min Xiao, Phys. Rev. A 47, 602 (1993).
13. "Enhancement of Photon Antibunching with Passive Interferometry", Y. Qu, Min Xiao, G.S. Holiday, S.P. Singh, and H. J. Kimble, Phys. Rev. A 45, 4932 (1992).
12. "Bistable Behavior in a System of an Optical Parametric Oscillator Coupling with N TwoLevel Atoms", Min Xiao and S. Jin, Phys. Rev. A 45, 483 (1992).
11. "Experimental Study of NonPoissonian Statistics in the Transfer of Momentum from Light to Atoms", B.G. Oldaker, P.J. Martin, P.L. Gould, Min Xiao, and D.E. Prichard, Phys. Rev. Lett. 65, 1555 (1990).
10. "Generation of Squeezed Light by Intracavity Frequency Doubling", S.F. Pereira, Min Xiao, H.J. Kimble, and J. H. Hall, Phys. Rev. A 38, Rapid Communications, 4931(R) (1988)
9. "Generation and Application of Squeezed States of Light", H. J. Kimble, R.J. Brecha, L.A. Orozco, M.G. Raizen, L.A. Wu, and Min Xiao, in Proceedings of Eighth International Conference on Laser Spectroscopy, Are, Sweden, (SpringerVerlag, Berlin, 1987).
8. "Detection of AM Modulation with Squeezed States of Light", Min Xiao, L.A. Wu, and H.J. Kimble, Optics Letter 13, 476 (1988).
7. "Precision Measurement Beyond the ShotNoise Limit", Min Xiao, L.A. Wu, and H.J. Kimble, Phys. Rev. Lett. 59, 278 (1987).
6. "Squeezed States of Light from an Optical Parametric Oscillator", L.A. Wu, Min Xiao, and H.J. Kimble, in Squeezed States of Electromagnetic Field, Feature Issue of J. Opt. Soc. Am. B, eds. H.J. Kimble and D. Walls, vol.4, no.10, 1465 (1987).
5. "Squeezed State Generation in Optical Bistability", L.A. Orozco, M.G. Raizen, Min Xiao, R.J. Brecha, and H.J. Kimble, in Squeezed States of Electromagnetic Field, Feature Issue of J. Opt. Soc. Am. B, eds. H.J. Kimble and D. Walls, vol.4, no.10, 1490 (1987).
4. "Squeezed State Generation by the Normal Modes of a Coupled System", M.G. Raizen, L.A. Orozco, Min Xiao, T.L. Boyd, and H.J. Kimble, Phys. Rev. Lett. 59, 198 (1987).
3. "Squeezed State Generation by the Normal Mode Splitting of TwoLevel Atoms in an Optical Cavity", H.J. Kimble, M.G. Raizen, L.A. Orozco, Min Xiao, and T.L. Boyd, in Fundamentals of Quantum Optics II, ed. F. Ehlotzky (Springer Lecture Notes in Physics, 1987), p.49.
2. "Squeezed State Generation for TwoLevel Atoms in a Spatially Varying Field Mode", Min Xiao, H.J. Kimble, and H.J. Carmichael, in Squeezed States of Electromagnetic Field, Feature Issue of J. Opt. Soc. Am. B, eds. H.J. Kimble and D. Walls, vol.4, no.10, 1546 (1987).
1. "Quantum Fluctuations for TwoLevel Atoms in a HighQ Cavity with a Spatially Varying Field Mode",

General CoChair (2007) and Program CoChair (2005), Quantum Electronics and Laser Science Conference;

Member, NSF Committee of Visitors, Division of Physics, Feb. 2009.

Topical Editor, Journal of Opt. Soc. of Am. B, Jan. 2012—Dec. 2014 (threeyear term);

Member of the Editorial Board, Physical Review A, Jan. 2015—present.
NSF Young Investigator Award 1994
Fellow of American Physical Society 2004
Fellow of Optical Society of America 2004