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Associate Professor

Ning XIANG

Associate Professor
D Tech (Technical Physics), Tampere University of Technology, Finland
Cluster:
Engineering
Email

SIT Appointments

  • Associate Professor
    Present
  • Programme Director, TUM BSc Electrical Engineering and Information Technology

Education

  • D Tech (Technical Physics)
    Tampere University of Technology , Finland
  • PhD (Physical Chemistry)
    Dalian Institute of Chemical Physics, Chinese Academy of Sciences , China
  • BSc (Applied Physics)
    Dalian University of Technology , China

Professional Memberships

  • Committee Member, IEEE Photonics Society Singapore Chapter
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Research Interests

  • Nano-fabrications for photonic structures and devices
  • Photovoltaic materials and solar cells
  • Semiconductor lasers and LEDs
  • Plasmonics
  • Crystal growth of semiconductor materials and quantum structures

Past Projects

  • Principal investigator: “Gain Excitation of Plasmons with III-V Semiconductor Quantum Dots”, 12.2009 - 03.2013

    $744,820

  • Principal investigator: “Developing passive semiconductor devices for ultra-short optical pulse generation”, 03.2007 - 02.2010

     S$ 97,770

  • Principal investigator: “Study on nitride materials and their optoelectronic devices”, 11.2004 - 10.2008

    S$ 165,400

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Journal Papers

  • Hongwei Gao, Jinghua Teng, SooJin Chua, Ning Xiang, “'Enhancement of GaAs/InGaAs Quantum Well Emission by disordered Gold Nanoparticle Arrays”, accepted by Applied Physics A, (2013)

  • K.H.P. Tung, H.W. Gao, N. Xiang, “Time evolution of self-assembled GaAs quantum rings grown by droplet epitaxy”, Journal of Crystal Growth, 371, 117-121, (2013).

  • Gao Hongwei; Tung Kar Hoo Patrick; Teng Jinghua; Chua Soo Jin; Xiang Ning, “Coupling of surface plasmon with InGaAs/GaAs quantum well emission by gold nanodisk arrays”, Applied Optics, Vol. 52 Issue 16, pp.3698-3702 (2013).

  • Liu Hailong; Li Bing; Zheng Longjiang; Xu Chenxi; Zhang Guangbiao; Wu Xijun; Xiang Ning; “Multispectral plasmon-induced transparency in triangle and nanorod(s) hybrid nanostructures”, Optics Letters, Vol. 38 Issue 6, pp.977-979 (2013).

  • Y. J. Liu, G. Y. Si, Eunice S. P. Leong, N. Xiang, A. J. Danner, and J. H. Teng, “Light-Driven Plasmonic Color Filters by Overlaying Photoresponsive Liquid Crystals on Gold Annular Aperture Arrays”, Advanced Materials, 24 (23), OP131-135 (2012).

  • J. Lu, K. H. Tung and N. Xiang, “Migration enhanced molecular-beam epitaxial growth of III-V quantum dot arrays using non-lithographic AAO template”, ECS J. Solid State Sci. Technol, volume 1, issue 3, P123-P126 (2012).

  • H. F. Liu, E.S. Lim, P.K.H. Tung and N. Xiang, “Fabrication and transfer of nanoporous alumina thin films for templating applications: Metal dots array deposition and porous ZnO film growth”, Thin Solid Films, 519 (10), 3050-3054 (2011).

  • Vivek Dixit, Hongfei Liu, and Ning Xiang, “Effect of Composition Disorders on Band Structure and Optical Gain Spectra of GaInNAs/GaAs Quantum Wells”, Japanese Journal of Applied Physics, 48, 081101 (2009).

  • V. Dixit, H. F. Liu, and N. Xiang, “Study of thermal-anneal-induced rearrangement of N-bonding configurations in GaInNAs/GaAs quantum well” Advanced Materials Research, Vol. 31, pp. 209 (2008).

  • H. Zhang, D. Y. Tang, L. M. Zhao, and N. Xiang, “Coherent energy exchange between components of a vector soliton in fiber lasers”, Optics express, 16 (17), 12618-12623 (2008).

  • V. Dixit, H. F. Liu and N. Xiang, “Analysing the thermal-annealing-induced photoluminescence blueshifts for GaInNAs/GaAs quantum wells: a genetic algorithm based approach”, J. Phys. D: Appl. Phys. 41, 115103 (2008).

  • F. Lin, N. Xiang, X. C. Wang, J. Arokiaraj, W. Liu, S. J. Chua, “Suppression of interference-induced reflectivity fluctuation in GaN-based semiconductor saturable absorber mirror”, Journal of The Electrochemical Society, 155 (5), H307–H313 (2008).

  • F. Lin, N. Xiang, S. J. Chua, P. Chen, S. Y. Chow, A. Irshad, S. Roither, A. Pugzlys, A. Baltuska, "Absorption recovery time reduction in InGaN/GaN quantum well saturable absorbers", Journal of Applied Physics, 103, 103508 (2008)

  • Fen Lin, Ning Xiang, Peng Chen, Soo Jin Chua, Afshan Irshad, Stefan Roither, Audrius Pugzlys, and Andrius Baltuska, “Demonstration and control of the fast-absorption recovery times of the InGaN/GaN quantum well saturable absorbers”, Proc. SPIE 6824, 68240T, January (2008).

  • F. Lin, N. Xiang, P. Chen, S. Y. Chow, S. J. Chua, “Investigation of the V-pit related morphological and optical properties of InGaN/GaN multiple quantum wells”, J. Appl. Phys., 103, 043508 (2008).

  • L. M. Zhao, D. Y. Tang, H. Zhang, X. Wu, and N. Xiang, “Soliton trapping in fiber lasers”, Optics Express, 16(13), 9528 -9533 (2008)

  • J. Kong, C. C. Chan, D. Y. Tang, N. Xiang, H. F. Liu, M. Pessa, L. J. Qin, "Comparative studies of passively mode-locked Nd:GdYVO4 laser and Nd:GdVO4 laser with semiconductor saturable absorber mirrors," Journal of optoelectronics and advanced materials, 9, 3571-3575 (2007).

  • H. F. Liu, S. J. Chua and N. Xiang, “On overannealing of GaIn(N)As / Ga(N)As multiple quantum wells grown by molecular beam epitaxy”, J. Appl. Phys., 102, 013504 (2007).

  • H. F. Liu, S. J. Chua, G. X. Hu, H. Gong, and N. Xiang, “Effects of substrate on the structure and orientation of ZnO thin-film grown by RF-magnetron sputtering”, J. Appl. Phys., 102, 083529 (2007).

  • H. F. Liu, S. J. Chua, G. X. Hu, H. Gong and N. Xiang, “Annealing effects on electrical and optical properties of ZnO thin-film samples deposited by radio frequency-magnetron sputtering on GaAs (001) substrate”, J. Appl. Phys., 102, 063507 (2007).

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