Institute of High Performance Computing

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Electronics & Photonics (EP)

Dr. CHU Hong Son

Dr. CHU Hong Son


Research Interests:

    Plasmonics and photonics from fundamental to devices and applications
  • Computational techniques for electromagnetics
  • Computational intelligence to design RF and optical devices


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  • Plasmonics and photonics from fundamental to devices and applications
  • Computational techniques for electromagnetics
  • Computational intelligence to design RF and optical devices
  • Qualifications:

    • Ph.D., Electronics Engineering, University of Nice-Sophia Antipolis, France, 2004
    • M.S., Propagation, Telecommunications and Remote Sensing, University of Nice-Sophia Antipolis, France, 2000
    • B.Eng. (Honors), Electrical Electronics Engineering, Ho Chi Minh City University of Technology, Vietnam, 1999

    Published Journals/ Articles:

    Journals

      1. H.S. Chu, Y. A Akimov, P. Bai, and E.P. Li, “Submicron radius and highly confined plasmonic ring resonator filters based on hybrid metal-oxide-semiconductor waveguide”, Opt. Lett. 37, 4564 (2012). [Abstract]

      2. H.S. Chu, D. J. Singh, J. Wang, E.P Li, and P.K. Ong, “High Optical Performance and Practicality of Active Plasmonic devices based on Rhombohedral BiFeO�3,” Lasers and Photonics Rev. 6, 684 (2012).

      3. Yu. A. Akimov and H.S. Chu, “Plasmon-plasmon interaction: Controlling light at nanoscale”, Nanotechnoly 23, 444004 (2012). [Abstract]

      4. R. Mote, H.S. Chu, P. Bai, and E.P. Li, “Compact and efficient coupler to interface hybrid dielectric-loaded plasmonic waveguide with silicon photonic slab waveguide”, Optics Communications 285, 3709 (2012). [Abstract]

      5. H.S. Chu, O. Kurniawan, W. Zhang, D. Li, and E.P. Li, “Integrated System-Level Electronic Design Automation (EDA) for Designing Plasmonic nanoCircuits,” IEEE Trans of Nanotechnlogy 11, 731 (2012). [Abstract]

      6. M.X. Gu, P. Bai, H.S. Chu, and E.P. Li, “Design of Subwavelength CMOS Compatible Plasmonic Photodetector for Nano-Electronic-Photonic Integrated Circuits,” IEEE Photo.Tech. Lett. 24, 515 (2012). [Abstract]

      7. C.H. Gan, H.S. Chu, and E.P. Li, “Synthesis of highly confined surface plasmon modes with doped graphene sheets in the midinfrared and terahertz frequencies”, Physical Review B 85, 125431 (2012). [Abstract]

      8. S. Zhu, H.S. Chu, G. Q. Lo, P. Bai and D. L. Kwong, “Waveguide-integrated near-infrared detector with self-assembled metal silicide nanoparticles embedded in a silicon p-n junction”, Appl. Phys. Lett. 100, 0611109 (2012). [Abstract]

      9. H.S. Chu, Y. A Akimov, P. Bai, and E.P. Li, “Hybrid dielectric-loaded plasmonic waveguide and wavelength selective components for efficiently controlling light at subwavelength scale”, J. Opt. Soc. of Amer. B 28, 2895 (2011). [Abstract]

      10. H.S. Chu, P. Bai, E.P. Li, and W. R.J. Hoefer “Hybrid Dielectric-Loaded Plasmonic Waveguide-Based Power Splitter and Ring Resonator: Compact Size and High Optical Performance for Nanophotonic Circuits”, Plasmonics 6, 591 (2011). [Abstract]

      11. Yu. A. Akimov and H.S. Chu, “Plasmon coupling effect on propagation of surface plasmon polaritons at a continuous metal/dielectric interface”, Physical Review B 83, 165412 (2011). [Abstract]

      12. H.S. Chu, W.B. Ewe, B. S. Luk’yanchuk and E.P. Li, “Field enhancement by semi-nanocapsule plasmonic antenna at the visible violet wavelength”, Appl. Phys. A 100, 353 (2010). [Abstract]

      13. W.B. Ewe, H.S. Chu, E.P. Li and B. S. Luk’yanchuk, “Field enhancement of gold optical nanoantennas mounted on a dielectric waveguide”, Appl. Phys. A 100, 315 (2010). [Abstract]

      14. L. Wu, H.S. Chu, W.S. Koh, E.P. Li, “Highly Sensitive Graphene Biosensors Based on Surface Plasmon Resonance”, Opt. Exp. 18, 14395 (2010) [also highlighted in Virtual Journal for Biomedical Optics, vol. 5, iss. 11, August 2010]. [Abstract]

      15. H.S. Chu, E.P. Li, P. Bai and R. Hegde, “Optical performance of single-mode hybrid dielectric-loaded plasmonic waveguide-based components”, Appl. Phys. Lett. 96, 221103 (2010). [Abstract]

      16. P. Bai, H.S. Chu, M.X. Gu, O. Kurniawan, and E.P Li “Integration of plasmonics into nanoelectronic circuits“, Physica B: Condensed Matter 400, 2978 (2010). [Abstract]

      17. H.S. Chu, W.B. Ewe, and E.P. Li, “Tunable propagation of light through a coupled-bent dielectric-loaded plasmonic waveguides”, J. Appl. Phys. 106, 106101 (2009). [Abstract]

      18. E.H. Khoo, P. Bai, M.X. Gu, H.S. Chu, W.B. Ewe, I. Ahmed, and E. P. Li, “Plasmonics NanoSensor”, Advanced Materials Research, 74, 13 (2009). [Abstract]

      19. H.S. Chu, W. B. Ewe, W. S. Koh, and E. P. Li, "Remarkable influence of the number of nanowires on plasmonic behaviors of the coupled metallic nanowire chain", Appl. Phys. Lett., 92, 103103 (2008) [also highlighted in Virtual Journal of Nanoscale Science & Technology, vol. 17, iss. 12, Mar 2008]. [Abstract]

      20. W.B. Ewe, H.S. Chu, and E.P. Li, “Volume integral equation analysis of surface plasmon resonance of nanoparticle”, Optics Express, 15, 18200 (2007). [Abstract]

      21. W.B. Ewe, E.P. Li, H.S. Chu, and L.W. Li, “AIM analysis of EM scattering by arbitrarily shaped magnetodielectric object”, IEEE Transactions on Antennas & Propagation, 55, 2073 (2007). [Abstract]

      22. H.S. Chu, W.B. Ewe, E.P. Li and R. Vahldieck, “Analysis of sub-wavelength light propagation through long double-chain nanowires with funnel feeding”, Optics Express, 15, 4216 (2007). [Abstract]

      23. H.S. Chu and W.R.J. Hoefer, “Enhancement of time domain analysis and optimization through neural networks”, Int. J. RF Microwave Computer-Aided Engineering, 17,�179 (2007). [Abstract]

      24. H.S. Chu, P.P.M So and W.R.J. Hoefer, “Design of Microwave Structures with MEFiST0-3D NOVA and MATLAB toolboxes”, Int. J. Numerical Modelling, 20, 55 (2007). [Abstract]

      25. H.S. Chu, J.L. Dubard, R. Staraj, ‘Shape optimization of multi-band antennas using the coupling between microgenetic algorithms and TLM method”, Int. J. Numerical Modelling, 17, 194 (2004). [Abstract]

      26. H.S. Chu, J.L. Dubard, R. Staraj, ”Integrating microgenetic algorithms with TLM method for dual-band planar inverted-F antennas design”, Electronics Letters, 39, 953 (2003). [Abstract]

    Conferences

      • H.S. Chu, P. Bai, S. Zhu, and E.P. Li, “Fully Cmos-compatible Hybrid Plasmonic Waveguide Devices Towards Nanoscale Electronics-photonics Integrated Circuit”, ICYRAM� 2012 conference, Singapore, 01-06 July. 2012.
      • M.X. Gu, H.S. Chu, P. Bai, and E.P. Li, “Surface Plasmon Enhanced Schottky Barrier Detector Based on Nanodisk Array Structure for CMOS Compatible Optical Integrated �Circuits”, CLEO/QELS 2012 conference, San Jose, CA, USA, 08-10 May, 2012.
      • P. Bai, H.S. Chu, S. Zhu, P. G.Q. Lo, and E.P. Li, “CMOS-compatible plasmonic waveguide platform� and ring resonator for nanoscale electronic-photonic integrated circuits”, OFC/NFOEC 2012 conference, Los Angeles, CA, USA, 04-08 March, 2012.
      • E.P. Li, P. Bai, I. Ahmed, and H.S. Chu, “Multiphysics Modeling of Plasmonic Nanodevices”, URSI General Assembly and Scientific Symposium, Turkey, 13-20 Aug. 2011.
      • H.S. Chu, Yu. A. Akimov, P. Bai, and E.P. Li, “Hybrid Dielectric-loaded Plasmonic Waveguide-based Devices”, ICMAT 2011, Singapore, 26 Jun – 01 Jul. 2011.
      • H.S. Chu, P. Bai, and E.P. Li, “Characterization of� planar hybrid dielectric-loaded plasmonic nano-waveguides used for nano-photonic circuits”, 2011 IEEE MTT-S International Microwave Symposium, Baltimore, MD, USA, 01-06 June, 2011.
      • H.S. Chu, R. Mote, P. Bai, and E.P. Li, “Highly efficient asymmetrical silicon-based plasmonic add-drop filter for integrated nanophotonic circuits”, OSA-5th International Conference on Nanophotonics, Fudan University, Shanghai, China, 22-26 May, 2011.
      • H.S. Chu, Yu. A. Akimov, P. Bai, E.P. Li, and W. Hoefer, “Ultracompact wavelength-selective silicon-based plasmonic components”, CLEO/QELS 2011 conference, Baltimore, MD, USA, 01-06 May, 2011
      • H.S. Chu, P. Bai, and E.P. Li, “High Performances of Planar Hybrid Plasmonic Waveguide-Based Structures”, CLEO/QELS 2010 conference, San Jose, CA, USA, 16-21 May, 2010.�
      • H.S Chu, W.B Ewe, P. Bai, and E.P. Li, “Controlling light in different structures of dielectric-loaded plasmonic waveguides”, APMC, Singapore, 7-10 December, 2009.
      • H.S Chu, S. Chen, W.B Ewe, and R. L. P. Ang, “Influences of geometries and material compositions on the performance of dielectric-loaded plasmonic waveguide”, ICMAT 2009, Singapore, 28 Jun – 03 Jul. 2009.
      • H.S. Chu, K. Chen, W.B. Ewe, and E.P. Li, “Analysis of splitting light in a double-chain of coupled metallic nanowires”, IEEE Photonics Global 2008, Singapore, Dec. 8-11, 2008.
      • H.S. Chu, I. Ahmed, and E.P. Li, “Analysis of light propagation in different Z-bend and Y-splitters of nano-slot plasmonics waveguides”, Gordon Research Conference-Plasmonics, Tilton, New Hampshire, USA, 27 Jul - 1 Aug, 2008.
      • H.S. Chu, W.B. Ewe, I. Ahmed, and E.P. Li, “Guiding light in different plasmonic nano-slot waveguides for nano-interconnect application”, 2008 Asia-Pacific Symposium on Electromagnetic Compatibility & 19th International Zurich Symposium on Electromagnetic Compatibility, Singapore, May 19-22, 2008.
      • H.S. Chu, P.P.M. So, and W.J.R. Hoefer, “Time-domain analysis with self-optimizing Prony predictor for accelerated field-based design”, 7th Workshop on Computational Electromagnetics in Time-Domain (CEM-TD 2007), Italy, Oct. 15-17, 2007.
      • H.S. Chu and W.B. Ewe, “Optical properties of single-chain of elliptical silver nanowires”, 7th IEEE International Conference on Technology, Hong Kong, Aug. 2-5, 2007.
      • H.S. Chu, W.B. Ewe, and E.P. Li, “Time-domain & frequency-domain method approach for electromagnetic characterization of the metallic & semi-conductor nano-wires”, 16th International Conference on Computation of Electromagnetic Fields, Aachen, Germany, Jun. 24-28, 2007.
      • H.S. Chu, W.B. Ewe, E.P. Li and H.P. Lee, “Surface integral equation method to characterize the nanoplasmonic waveguides with funneling array”, 1st European Topical Meeting on Nanophotonics and Metamaterials, Austria, Jan. 8-11, 2007.
      • H.S. Chu, P.P.M So and W.R.J. Hoefer, “Optimization of microwave structures with MEFISTO-3D NOVA and MATLAB”, CEM-TD, Georgia Tech, Atlanta, GA, U.S.A, Sept. 12-14, 2005.
      • H.S. Chu, J.L. Dubard, R. Staraj, D. Pompei, "Design of dual-band monopolar wire-patch antenna by using an integrated microgenetic algorithm into the transmission line matrix method”, 13th International Symposium on Antennas (JINA 2004), Nice, France, Nov. 8-10, 2004.
      • H.S. Chu, J.L. Dubard, "Design of broadband/multiband antennas by using TLM method coupled with a genetic algorithm on a parallel computer”, COST 284, 5th Management Committee Meeting and Joint COST 273/284 Workshop, Goteborg, Sweden, Jun. 7-9, 2004.
      • H.S. Chu, J.L. Dubard, "The design of broadband PIFA by using the coupling between Genetic algorithms and the Transmission Line Matrix method". in Proc. Progress in Electromagnetic Research Symposium (PIERS 2004), Pisa, Italy, March 28-31, 2004.
      • H.S. Chu, J.L. Dubard, R. Staraj, "Shape optimization of multi-band antennas using the coupling between microgenetic algorithms and TLM method". 5th International Workshop on Computational Electromagnetics in Time Domain TLM, FDTD and other Techniques (CEM 2003), Halifax, Nova Scotia, Canada, June 17-19, 2003.
      • .S. Chu, J.L. Dubard, and R. Staraj, "Unconventional antenna design by TLM method coupled to genetic algorithms". 12th International Symposium on Antennas (JINA 2002), Nice, France, Nov. 12-14, 2002.


    This page is last updated at: 31-MAY-2013