XIAO Junjun
Address:
C-411, HITCampus, Shenzhen University Town, Xili, Shenzhen, China (518055)
Email:
eiexiao AT hit.edu.cn
Phone:
(+86)-755-26032716
(+86)-755-26033608(Fax)
PERSONAL PROFILE
 
Dr. Jun-Jun Xiao received the BS and MS degrees in condensed matter physics from Lanzhou University, Lanzhou, China in 1999 and 2002, respectively. He then moved to the Chinese university of Hong Kong (CUHK) and obtained the Ph.D degree in Physics in 2006. After working as a Research Associate in CUHK from 2006-2007, he worked in the Department of Physics, Hong Kong University of Science and Technology as a Visiting Scholar till 2009. Currently, he is a Professor at the Shenzhen Graduate School, Harbin Institute of Technology. He has been studying in nanophotonics, metamaterials, plasmonics and published over 60 papers on various international journals. He also co-authored a book chapter in “Plasmons: Theory and Applications”. His research interests include nanoantenna, photonics and metamaterials.
RESEARCH INTEREST
 
[1] Nanophotonics and application in information technology, new materials and energy
[2] Opto-electronics and the application in optical communication and sensing
[3] Plasmonics, metamaterials and plasmonis: topology photonics, spin-dependent optics, and PT-symemtry optics
[4] Optical micromanipulation and fiber-associated applications, optical imaging and detection
EDUCATION  
2003-2006
Ph.D, Chinese University of Hong Kong, Department of Physics
2004-2005
Visiting Student, University of Toronto, Institute of Optical Science
1999-2002
MS, Lanzhou Unviersity, School of Physical Science and Technology
1995-1999
BS, Lanzhou Unviersity, Department of Physics
RESEARCH & WORK EXPERIENCE  
2015- present
Professor, Harbin Institute of Technology, Shenzhen Graduate School
2009-2015
Associate Professor, Harbin Institute of Technology, Shenzhen Graduate School
2007-2009
Visiting Scholar, Hong Kong University of Science and Technology
2006-2007
Research Associate, Chinese University of Hong Kong
2002-2003
Software Engineer, Linkchance Co. Ltd
PROFESSIONAL QUALIFICATION & ACADEMIC SERVICE
 
2007-present
Phys. Rev. Lett. (A, B), Appl. Phys. Lett., J. Appl. Phys., IEEE Photon. Technol. Lett., Opt. Express, Opt. Lett., J. Opt. Soc. Am B, Opt. Commun. ACS Nano, Sci. Rep., Chin. Phys. B, Chin. Opt. Lett.,
2004-present
Member of APS, OSA, HKPS, ETOPIM
2015-
Member of Editorial Board, Heliyon -Elsevier's new open access journal (http://www.heliyon.com)
http://www.inderscience.com/jhome.php?jcode=IJCSE
RESEARCH PROJECTS
2013-2015
Shenzhen Oversea Talents Project
2013-2014
Shenzhen New Material Project: Fabrication and opticla characteristics of optical metamaterial based on plasmonic "optical matter".
2013-2016
NSFC Project: Study of several quantum-optical analogies in nanophotonic super-structures
2011-2013
NSFC Project: Optical micromanipulation on and by plasmonic resonant structrues
2011-2013
Shenzhen R&D Plan: New resonant photonic structrues for microparticle manipulation
2011-2012
Natural Scientific Research Innovation Foundation in Harbin Institute of Technology
2012-2014
Shenzhen Key Lab of Terminal of Internert of Things
2013-2014
Public service platform for high-speed ultra-band optical communication industry
RESEARCH ACHIEVEMENT & AWARDS
2003
1. HKRGC(2009--2010): Using the idea of transformation optics to manipulate waves
2. HKRGC(2007--2009): Electromagnetic fields and light induced electromagnetic forces
3. HKRGC(2006--2009): Electromagnetic resonant structures and plasmonic structures
4. HKRGC Earmarked Grant (2006--2008): Nano-optics in graded plasmonic crystals
5. HKRGC (2003--2006): First-principles approach to graded-particle composites
2013
Shenzhen Oversea Talents (Class B)
PATENT
   
PAPER & BOOK PUBLICATIONS
ResearcherID: http://www.researcherid.com/rid/B-9205-2011

====Since HITSZ======================================

【Book Chapter】:

[1] J. J. Xiao*, K. Yakubo, and K. W. Yu, "Graded plasmonic structures and their properties", Chapter in the book 《Plasmons: Theory and Applications》, Nova Science Publishers, New York, 2011 (ISBN: 978-1-61761-306-7)
(https://www.novapublishers.com/catalog/product_info.php?products_id=13151)

【Journal Articles (SCI)】

[62] Z. Z. Liu, Q. Zhang, X. Liu, Y. Yao, and J. J. Xiao*, "Absence of exceptional points in square waveguide arrays with apparently balanced gain and loss," Scientific Reports 6, 22711 (2016). http://dx.doi.org/10.1038/srep22711

[61] F. F. Qin, J. J. Xiao*, Z. Z. Liu, and Q. Zhang, “Multiple Fano-like transmission mediated by multimode interferences in spoof surface plasmon cavity-waveguide coupling system,” IEEE Transactions on Microwave Theory and Techniques, DOI:10.1109/TMTT.2016.2533381 (2016).

[60] F. F. Qin, J. J. Xiao*, Q. Zhang and W. G. Liang "Multiple Fano resonances in spatially compact and spectrally efficient spoof surface plasmon resonators with composite structures," Optics Letters 41(1), 60-64 (2016) http://dx.doi.org/10.1364/OL.41.000060

[59] Z. Z. Liu, Q. Zhang and J. J. Xiao*, “EIT-like transmission by interaction between multiple Bragg scattering and local plasmonic resonances,”Journal of Optics 18, 015008 (2016). http://dx.doi.org/10.1088/2040-8978/18/1/015005

[58] B. Guo, Y. Yao, J. J. Xiao, R. L. Wang, and J. Y. Zhang “Topological insulator-assisted dual-wavelength fiber laser delivering versatile pulse patterns,” IEEE Journal of Selected Topics in Quantum Electronics 22(2), 0900108 (2016). http://dx.doi.org/10.1109/JSTQE.2015.2426951

[57] Q. Zhang, J. J. Xiao*, M. L. Li, D. Z. Han, and L. Gao, "Coexistence of scattering enhancement and suppression by plasmonic cavity modes in loaded dimer gap-antennas," Scientific Reports 5, 17234 (2015). http://dx.doi.org/10.1038/srep17234

[56] Y. H. Li, Q. Zhang and J. J. Xiao*, "Designing commensurate and incommensurate resonances for enhanced dipole emission in coupled plasmonic nanorods," Plasmonics. http://dx.doi.org/10.1007/s11468-015-0115-z

[55] H. Xiang, Y. Meng, Q. Zhang, F. F. Qin. J. J. Xiao, D. Han, and W. J. Wen “Spoof surface plasmon polaritons on ultrathin metal strips with tapered grooves,” Optics Communications 356, 59 (2015). http://dx.doi.org/10.1016/j.optcom.2015.07.060

[54] X. M. Zhang, J. J. Xiao*, Q. Zhang, M. L. Li, and Y. Yao, "Plasmonic TM-like cavity modes and the hybridization in multilayered metal-dielectric nanoantenna," Optics Express 23(12), 16122-16132 (2015). http://dx.doi.org/10.1364/OE.23.016122

[53] Q. Zhang, J. J. Xiao*, D. Z. Han, F. F. Qin, X. M. Zhang, and Y. Yao, "Microwave band gap and cavity mode in spoof-insulator-spoof waveguide with multiscale structured surface," Journal of Physics D: Applied Physics 48, 205103 (2015). http://dx.doi.org/10.1088/0022-3727/48/20/205103

[52] Y. Huang, J. J. Xiao, and L. Gao, “Antibonding and bonding lasing modes with low gain threshold in nonlocal metallic nanoshell,” Optics Express 23(7), 8818 (2015). http://dx.doi.org/10.1364/OE.23.008818

[51] Z. Z. Liu, J. J. Xiao*, Q. Zhang, X. M. Zhang, and K. Y. Tao, “Collective dark states controlled transmission in plasmonic slot waveguide with a stub coupled to a cavity dimer," Plasmonics, 10, 1057 (2015).
http://dx.doi.org/10.1007/s11468-015-9901-x

[50] Q. Zhang, J. J. Xiao*, X. M. Zhang, D. Z. Han, and L. Gao “Core-shell structured dielectric-metal circular nanodisk antenna: gap plasmon assisted magnetic toroid-like cavity modes,” ACS Photonics 2(1), 60-65 (2015). http://dx.doi.org/10.1021/ph500229p

[49] K. Y. Tao, J. J. Xiao, and X. B. Yin, “Nonreciprical photonic crystal add-drop filter,” Applied Physics Letters 105(22), 211105 (2014). http://dx.doi.org/10.1063/1.4902868

[48] S. L. Wang, J. J. Xiao*, Q, Zhang, and X. M. Zhang, “Resonance modes in stereometamaterial of square split ring resonators connected by sharing the gap,” Optics Express, 22(20), 24359 (2014). http://dx.doi.org/10.1364/OE.22.024358

[47] X. M. Zhang, J. J. Xiao*, and Q. Zhang, “Interaction between single nano-emitter and disk-ring plasmonic nanostructure with multiple Fano resonances,” Journal of Optical Society of America B 31(9), 2193 (2014). http://dx.doi.org/10.1364/JOSAB.31.002193

[46] X. M. Zhang, J. J. Han, Q. Zhang, F. F. Qin, and J. J. Xiao*, "Plasmonic supermodes in nanocrescent dimer with tunable resonances at the near-infrared," Optics Communications 325, 9 (2014). http://dx.doi.org/10.1016/j.optcom.2014.03.078

[45] Q. Zhang, J. J. Xiao*, and S. L. Wang, "Optical characteristics associated with magnetic resonance in toroidal metamaterials of vertically coupled plasmonic nanodisks," Journal of Optical Society of America B 31(5), 1103 (2014). http://dx.doi.org/10.1364/JOSAB.31.001103

[44] Y. J. Yuan, Y. Yao, J. J. Xiao, Y. Yan, J. J. Tian, and C. Liu, "Experimental and numerical study of high order Stokes lines in Brillouin-erbium fiber laser," Journal of Applied Physics 115, 043102 (2014).

[43] X. M. Zhang, J. J. Xiao*, and Q. Zhang, "Optical binding forces between plasmonic nanocubes: A numerical study based on discrete-dipole approximation," Chinese Physics B 23, 017302 (2014). http://dx.doi.org/10.1088/1674-1056/23/1/017302

[42] Q. Zhang and J. J. Xiao*, "Multiple reversals of optical binding force in plasmonic disk-ring nanostructures with dipole-multipole Fano resonances," Optics Letters 38, 4240 (2013). http://dx.doi.org/10.1364/OL.38.004240

[41] S. B. Wang, H. H. Zheng, J. J. Xiao, Z. F. Lin, and C. T. Chan, "Fast multipole boundary element method for three dimensional electromagnetic scattering problem," International Journal of Computational Materials Science and Engineering, 01 (4), 1250038 (2013) [36 pages]. http://dx.doi.org/10.1142/S2047684112500388

[40] Q. Zhang, J. J. Xiao*, X. M. Zhang, and Y. Yao, "Optical binding force of gold nanorod dimer coupled to a metallic slab," Optics Communications 301-302, 121 (2013). http://dx.doi.org/10.1016/j.optcom.2013.04.005

[39] Q. Zhang, J. J. Xiao*, X. M. Zhang, Y. Yao, and H. Liu, "Reversal of optical binding force by Fano resoanance in plasmonic nanorod heterodimer, " Optics Express 21, 6601 (2013). http://dx.doi.org/10.1364/OE.21.006601
Selected for the Virtual Journal for Biomedical Optics, Vol. 8, Issue 4, May 2013

[38] X. L. Yu, Y. Yao, J. J. Xiao, and J. J. Tian, "A practical approach to synthesize multi-channel fiber Bragg grating with right-angled triangular spectrum," Chinese Physics Letters, 29, 114211 (2012).

[37] X. L. Yu, Y. Yao, J. J. Xiao, and J. J. Tian, "Optimal design of short fiber Bragg gratings with triangular spectrum," Optics Communications 285, 631 (2012).

[36] J. J. Tian, Y. Yao, J. J. Xiao, X. C. Xu, and D. Chen, "Tunable multiwavelength erbium-doped fiber laser based on intensity-dependent loss and intra-cavity loss modulation," Optics Communications 285, 2426 (2012).

[35] J. J. Tian, Y. Yao, J. J. Xiao, X. C. Xu, and D. Chen, "Multiwavelength Erbium doped fiber laser based on intensity dependent transmission in a linear cavity," Journal of Applied Physics 109, 113102 (2011).

[34] J. J. Tian, Y. Yao, J. J. Xiao, X. C. Xu, and D. Chen, "A triple function linear fiber laser with passive mode locking, continuous wave single- and multi-wavelength lasing," Optics Letters 36, 1509 (2011).

[33] J. J. Tian, Y. Yao, J. J. Xiao, X. C. Xu, and D. Chen, "A pump power controlled multiwavelength fiber laser with adjustable output channels at fixed wavelength," Applied Physics B: Lasers Optics 102, 545 (2011).

[32] C. Liu, et al, "Average capacity optimization in freespace optical communication system over atmospheric turbulence channels with pointing errors,” Optics Letters 35, 3171 (2010).

[31] H. H. Zheng, J. J. Xiao, Y. Lai, and C. T. Chan, "Exterior optical cloaking and illusions by using active sources: a boundary element perspective,” Physical Review B 81, 195116 (2010).

[30] J. J. Xiao*, H. H. Zheng, Y. X. Sun, and Y. Yao, "Bipolar optical forces on dielectric and metallic nanoparticles by evanescent waves,” Optics Letters 35, 962 (2010).
[Erratum: Opt. Lett. 35, 1853 (2010)]

[29] M. J. Zheng, J. J. Xiao, and K. W. Yu, "Controllable optical Bloch oscillation in planar graded optical waveguide arrays,” Physical Review A 81, 033829 (2010).

[28] M. J. Zheng, J. J. Xiao, and K. W. Yu, "Tunable localization and oscillation of coupled plasmon waves in graded plasmonic chain,” Journal of Applied Physics 106, 113307 (2009).
Selected for the January 4, 2010 issue of the Virtual Journal of Nanoscale Science & Technology.

[27] M. J. Zheng, J. J. Xiao, K. Yakubo, and K. W. Yu, "Energy relaxation in damped two dimensional graded elastic lattices,” Journal of Physics Society of Japan 78, 124603 (2009).

[26] Y. C. Jian, J. J. Xiao*, and J. P. Huang, "Optical force on dielectric nanorods coupled to a high-Q photonic crystal nanocavity,” Journal of Physical Chemistry C 113, 17170 (2009).
Media Coverage of This Work:
(1) “Nanocavity brings optical tweezing down to size”, "Photonics Spectra" Magazine News Dec. 2009, http://www.photonicsspectra-digital.com/photonicsspectra/200912?pg=18#pg18
(2) “Photonic-crystal cavities as optical nanomachines", SPIE (国际光学工程协会)Newsroom, 2009, http://spie.org/x38275.xml?highlight=x2400&ArticleID=x38275
(3) 科学时报》2010年1月19日报道, http://news.sciencenet.cn/sbhtmlnews/2010/1/228173.html。
----并获科学网,新华网, 人民网,自然科学基金委网站,中国教育科研网,中国经济网等几十个国内著名网站转载报道。
(4) "光子带来的源动力", 《南方周末》,2010年02月04日 E26科学/文学版, http://www.infzm.com/content/41130.
(5) Recommanded Paper in "Nature China" , http://spotlight.nature.com/products/nchina/subjects/physics)

===== Prior to HITSZ=================================
[25] Y. Lai, J. Ng, H. Chen, D. Z. Han, J. J. Xiao, Zhao-Qing Zhang and C. T. Chan, "Illusion optics: The optical transformation of an object into another object”, Physical Review Letters 102, 253902 (2009).
Media Coverage of This Work:
(1)“Material Witness: Dream on,” Nature Material
(2)“Optics: Swap trick,” Nature China
(3)“Modified invisibility cloak could make the ultimate illusion ”, New Scientist
(4)“Transform a ball into a rock–or make it invisible–using transformation optics,” PhysOrg.com
(5)“More illuson than invisible,” Synopsis in Physics
(6)“Illusion cloak makes one object look like another,” the physics arXiv blog
(7)“Optics: All smoke and metamaterials,” Nature 460, 579 (2009)
(8)“Magical matematerials,” Optics & Photonics Focus
(9)“‘Cloak of Illusion’ Tech Could Disguise Objects,” Discovery Channel

[24] T. H. Fung, L. L. Leung, J. J. Xiao*, and K. W. Yu, "Controlling electric fields spatially by graded metamaterials: Implication on enhanced nonlinear optical responses”, Optics Communications 282, 1028 (2009)

[23] J. J. Xiao*, J. Ng, Z. F. Lin, and C. T. Chan, "Whispering gallery mode enhanced optical force with resonant tunneling excitation in the Kretschmann geometry”, Applied Physics Letters 94, 011102 (2009)

[22] J. J. Xiao and C. T. Chan, "Calculation of the optical force on an infinite cylinder with arbitrary cross-section by the boundary element method”, Journal of Optical Society of American B, 25, 1553 (2008)

[21] J. J. Xiao*, J. P. Huang, and K. W. Yu, "Dynamic polarizability of rotating particles in electrorheological fluids”, Journal of Physical Chemistry B 112, 6767 (2008)

[20] J. J. Xiao* and K. W. Yu, "Light trapping and releasing in side-coupled microresonator structures with asymmetric cavity–waveguide coupling”, Optics Communications 281, 4023 (2008)

[19] J. J. Xiao*, K. Yakubo, and K. W. Yu, "Global phase diagram of one dimensional graded diatomic elastic chains: A diagrammatic approach to identifying vibrational normal modes”, Journal of Physics: Condensed Matter 19, 026224 (2007)

[18] S. M. Wang, J. J. Xiao*, and K. W. Yu, "Tunable coupled plasmon modes via nanoshell particle chains”, Optics Communications 279, 384 (2007)

[17] J. J. Xiao, K. Yakubo, and K. W. Yu, "Variety of normal modes and their transition behaviors in graded elastic networks: square networks with a diagonal gradient”, Journal of Physics Society of Japan 76, 024602 (2007)

[16] J. J. Xiao*, Joseph T. A. Kwok, and K. W. Yu, "Optical properties of graded colloid nanocrystallines with tunable structure”, Optics Communications 272, 252 (2006)

[15] J. J. Xiao*, K. Yakubo, and K. W. Yu, "Dispersion and transitions of dipolar plasmon modes in graded plasmonic waveguides”, Applied Physics Letters 89, 221503 (2006)
Selected for the December 11, 2006 issue of Virtual Journal of Nanoscale Science & Technology

[14] J. J. Xiao, K. Yakubo, and K. W. Yu, "Harmonic vibrations in two-dimensional graded elastic networks: Variety of normal modes and their transitions”, Physical Review B 73, 224201 (2006)

[13] J. J. Xiao, K. Yakubo, and K. W. Yu, "Optical switching in graded plasmonic waveguides”,
Applied Physics Letters 88, 241111 (2006)
Selected for the June 26, 2006 issue of Virtual Journal of Nanoscale Science & Technology.

[12] J. J. Xiao, K. Yakubo, and K. W. Yu , "Harmonic vibrational excitations in graded elastic networks: Transition from phonons to gradons”, Physical Review B 73, 054201 (2006)

[11] J. J. Xiao* and K. W. Yu, "Giant enhanced optical nonlinearity in colloid nanocrystal with a graded-index host”, Applied Physics Letters 88, 071911 (2006)
Selected for the February 27, 2006 issue of Virtual Journal of Nanoscale Science & Technology.

[10] J. J. Xiao, J. P. Huang, and K. W. Yu, "Optical response of strongly coupled metal nanoparticles in dimer arrays”, Physical Review B 71, 045404 (2005)
Selected for the January 17, 2005 issue of Virtual Journal of Nanoscale Science & Technology.

[9] Q. F. Liu, C. Z. Long, J. J. Xiao, C. X. Gao, and D. S. Xue, "Size effects on magnetic properties in Fe0.68Ni0.32 alloy nanowire arrays”, Journal of Magnetism and Magnetic Materials 260, 151 (2003)

[8] J. J. Xiao, C. Sun, D. S. Xue, and F. S. Li, "Study on magnetic properties of Fe-nanowires by micromagnetic simulation”, Acta. Physica. Sinica (in Chinese), 50, 1605 (2001)

[7] C. W. Choy, J. J. Xiao, and K. W. Yu, "Electrostatic resonances and optical responses of cylindrical clusters”, J. Phys.: Conference Series 142, 012017 (2009)

[6] K. Yakubo, J. J. Xiao , and K. W. Yu , "Localized vibrations in graded lattices: Gradons”,
J. Phys.: Conference Series 92, 012008 (2007)

[5] J. J. Xiao, K. Yakubo, and K. W. Yu, "Vibrational excitations in graded elastic chains”,
Int. J. Mod. Phys. B 21, 4184 (2007)

[4] J. J. Xiao*, K. Yakubo, and K. W. Yu, "Coupled plasmon modes and their localization in graded plasmonic chains”, Physica B: Condensed Matter 394 (2), 208 (2007)

[3] K. Yakubo, J. J. Xiao, and K. W. Yu, "Confined vibrational normal modes in graded elastic networks: gradons”, Physica B: Condensed Matter 394 (2), 262 (2007)

[2] C. W. Choy, J. J. Xiao, and K. W. Yu, "Local field distribution near corrugated interfaces: Green function formalism versus effectivemedium theory”, Physica B: Condensed Matter 394 (2), 325 (2007)

[1] K. W. Yu, G. Q. Gu, J. P. Huang, and J. J. Xiao, "Dynamic electrorheological effects of rotating particles: a brief review”, Int. J. Mod. Phys. B 19, 1163 (2005)
CONFERENCE PAPERS/TALKS
 
[1] (invited) J. J. Xiao*, “Several quantum-optical analogies in coupled nanoantenna, waveguide and metasurface,” IAS Workshop “Advanced concepts in wave physics: Topology and parity-time symmetries” HKUST, Jan.1-15, 2016.
[2] (invited) J. J. Xiao*, “Multiscale structured ultrathin metal surface for microwave manipulation by spoof surface plasmon polariton,” EMN Hong Kong Meeting, Dec. 12-15, 2015, Hong Kong.
[3] J. J. Xiao*, Q. Zhang, D. Han, and L. Gao, “Fano resonance induced by magnetic toroidal moment in hybrid plasmonic-dielectric nanostructures,” The 6th International Conference on Metamaterials, Photonic Crystals and Plasmonics (Meta 2015), 4-7 August, New York.
[4] Q. Zhang, Z. Z. Liu, H. Xiang, D. Han, and J. J. Xiao*,”Wave manipulation by coupled cavities in structured metallic surface,” The 6th International Conference on Metamaterials, Photonic Crystals and Plasmonics (Meta 2015), 4-7 August, New York.
[5] J. J. Xiao*, Q. Zhang, X. M. Zhang, and F. F. Qin, “Fano effects induced by toroidal resonances in hybrid plasmonic-dielectric nanostructures,” International Photonics and Opto-Electronics Meeting (POEM), Organized by the Optical Society of America, June 16-19, Wuhan, 2015. (EI收录)
[6] Z. Z. Liu and J. J. Xiao*, “Double electromagnetically induced transparency in a metal-dielectric-metal plasmonic waveguide system composed of cascaded resonators,” International Photonics and Opto-Electronics Meeting (POEM), Organized by the Optical Society of America, June 16-19, Wuhan, 2015. (EI收录)
[7] F. F. Qin and J. J. Xiao*, “Multimode temporal coupled mode theory for spoof surface plasmon cavity-waveguide coupling systems,” International Photonics and Opto-Electronics Meeting (POEM), Organized by the Optical Society of America, June 16-19, Wuhan, 2015. (EI收录)
[8] J. J. Xiao*, Q. Zhang, D. Han, and L. Gao, “Magnetic toroidal dipole and toroid-like modes in hybrid plasmonic-dielectric resonator,” The 7th International Conference on Surface Plasmon Photonics (SPP7), May 31-June 5, 2015, Jerusalem, Israel.
[9] Q. Zhang, X.Hong, D. Han and J. J. Xiao*, “Spoof surface plasmon polaritons in multiscale microsructured slot waveguide,” The 7th International Conference on Surface Plasmon Photonics (SPP7), May 31-June 5, 2015, Jerusalem, Israel.
[10] J. J. Xiao*, “Interplay between Fano resonance and toroidal resonance in plasmonic-dielectric nanostructures,”, EMN Meeting on optoelectronics, April 24-27, 2015, Beijing, China
[11] Q. Zhang, S. L. Wang, F. F. Qin, and J. J. Xiao*, “Magnetic toroidal moment in coupled plasmonic nanodisks and their properties,” The 35th PIERS, Guangzhou, 25-28 August, 2014.
[12] X. M. Zhang, Q. Zhang, F. F. Qin, and J. J. Xiao*,”Emission of a point dipole mediated by multiple Fano resonances in plasmonic nanostructures”, The 35th PIERS, Guangzhou, 25-28 August, 2014.
[13] Q. Zhang, J. J. Xiao*, and L. Gao, “Gap surface plasmon polariton assisted magnetic toroidal modes in core-shell nanodisk antenna”, International Photonics and Opto-Electronics Meeting (POEM), Organized by the Optical Society of America, June 18-21, Wuhan, 2014. (EI收录)
http://dx.doi.org/10.1364/OEDI.2014.OF5A.3
[14] J. J. Xiao*, Q. Zhang, X. M. Zhang, and F. F. Qin, “Negative optical binding force induced by Fano resonances in plasmonic heterodimers”, The 35th PIERS, Guangzhou, 25-28 August, 2014.
[15] Q. Zhang, J. J. Xiao*, and L. Gao, “Gap surface plasmon polariton assisted magnetic toroidal modes in core-shell nanodisk antenna”, International Photonics and Opto-Electronics Meeting (POEM), Organized by the Optical Society of America, June 18-21, Wuhan, 2014. (EI收录)
[16] Q. Zhang, F. F. Qin, X. M. Zhang, and J. J. Xiao*, "Optical forces mediated by hybrid resonance in strongly coupled plasmonic nanostructures," The 11th International Symposium on Photonics and Electromagnetic Crystal Structures (PECS-XI), Shanghai, May 11-15, 2014.
[17] J. J. Xiao*, "Plasmonic nanostructures with multiple Fano resonances and their unusual optical force effects," 中国物理学会秋季会议,厦门大学,厦门,2013
[18] 张小明 肖君军*, "任意光束下三维任意形状纳米颗粒的散射及光力特性", 中国物理学会秋季会议,厦门大学,厦门,2013
[19] Q. Zhang and J. J. Xiao*, "微纳结构中表面等离激元共振耦合导致的光力效应", 中国物理学会秋季会议,厦门大学,厦门,2013
[20] X. M. Zhang, Q. Zhang, and J. J. Xiao*, "Tractor beams to pull plasmonic nanoparticles of arbitrary shape: A numerical study based on DDA," International Workshop "Photonics of Functional Nanomaterials" 6-9 May 2013, Hong Kong
[21] Q. Zhang, X. M. Zhang, and J. J. Xiao*, "Plasmonic nanostructures with Fano resonances and their unusual optical force effect," International Workshop "Photonics of Functional Nanomaterials" 6-9 May 2013, Hong Kong
[22] J. J. Xiao*, Croucher ASI on New Materials and New Concepts for Controlling Light and Waves, HKUST, Hong Kong, 2012.
[23] 肖君军,”微纳颗粒近场光学微操控数值计算”,中国物理学会秋季会议,中山大学,广州, 2012
[24] J. J. Xiao*, Workshop on the Frontiers of Plasmonics and Related Nanophotonics, CUHK, Hong Kong, May 20-23, 2011.
[25] J. J. Xiao*, Workshop on Optics and New Materials II, CUHK, Hong Kong, April 30- May 3, 2010.
[26] Y. Lai, J. Ng, H. Chen, D. Z. Han, J. J. Xiao, Zhao-Qing Zhang and C. T. Chan, “Optical illusion effects created by using metamaterials”, ICEAA: 2009 International Conference on Electromagnetics in Advanced Applications 1, 814(2009)
[27] (Invited) Y. Lai, J. Ng, H. Chen, D. Z. Han, J. J. Xiao, Z. Q. Zhang, and C. T. Chan, PIERS 2010, Xi’An, China, March 22-26, 2010.
[28] M. J. Zheng, J. J. Xiao, K. Yakubo, and K. W. Yu, March meeting of American Physical Society, organized by American Physical Society, Portland, Oregon USA. March 15–19, 2010.
[29] Y. Lai, J. Ng, H. Chen, D. Z. Han, J. J. Xiao, Z. Q. Zhang, and C. T. Chan, ICEAA09, Turin, Italy, September 14-18, 2009.
[30] J. J. Xiao and C. T. Chan, PIERS 2009, Beijing, March 23-27, 2009
[31] K. Yakubo, J. J. Xiao, and K. W. Yu, The Meeting of the Physical Society of Japan, Sapporo, Japan, September 21–24, 2007.
[32] T. H Fung, L. L. Leung, J. J. Xiao, and K. W. Yu, The 13th Annual Conference of the Physical Society of Hong Kong, Hong Kong SAR, China, June 4, 2008.
[33] K. W. Yu, K. Yakubo, and J. J. Xiao, March meeting of American Physical Society, organized by American Physical Society, New Orleans, Louisiana USA. March 10–14, 2008.
[34] (Invited) K. Yakubo, J. J. Xiao, and K. W. Yu, Invited talk on PHONONS 2007–The 12th International Conference on Phonon Scattering in Condensed Matter, Paris, France, July 15–20, 2007.
[35] C. W. Choy, J. J. Xiao, and K. W. Yu, March meeting of American Physical Society, organized by American Physical Society, Denver, CO, USA. March 13–17, 2006.
[36] J. J. Xiao, K. Yakubo, and K. W. Yu, ETOPIM 7, Organized by the University of Sydney, Sydney, Australia, July 9–14,2006.
[37] (Invited) K. Yakubo, J. J. Xiao, and K. W. Yu, The 61th Annual Meeting of the Physical Society of Japan, organized by the Physical Society of Japan, Matsuyama University, March 27, 2006.
[38] J. J. Xiao, K. Yakubo, K. W. Yu, March meeting of American Physical Society, organized by American Physical Society, Baltimore, MD, USA. March 13–17, 2006.
[39] J. J. Xiao and K. W. Yu, March meeting of American Physical Society, organized by American Physical Society, Los Angles, CA, USA, March 21–25, 2005.
[40] (Invited) K. W. Yu, G. Q. Gu, J. P. Huang, and J. J. Xiao, The 9th International Conference on Electrorheological (ER) Fluids and Magnetorheological (MR) Suspensions, Beijing, China, August 29–September 3, 2004.
[41] J. J. Xiao, J. P. Huang and K. W. Yu, The 9th Annual Conference of the Physical Society of Hong Kong, organized by the Physical Society of Hong Kong, Hong Kong University of Science and Technolegy, June 19, 2004.
[42] J. J. Xiao, J. P. Huang, K. W. Yu, and G. Q. Gu, March meeting of American Physical Society, organized by American Physical Society, Montreal, Canada, March 22–26, 2004.
[43] J. J. Xiao, J. P. Huang, and K. W. Yu, The 12th Chinese National Conference on Condensed Matter Theory and Statistical Physics, Shanghai, China, October 16–19, 2003.
TEACHING/SUPERVISING EXPERIENCE
Students supervised (from 2009)
over 20 Master students graduated

Currently:
5 Ph.D students, 1 Postdoc
6 Master students
Teaching (from 2009)
Fourier Optics, 2009 -2012
Information Optics and Nanophotonics, 2013 - present
Quantum Optoelectronics 2015 - present
Updated:2019-04