Institute of High Performance Computing

navigation

People: Vibrant & Dynamic Culture

People

----

Electronics & Photonics (EP)

Dr. LI Dongying

Dr. LI Dongying


Research Interests:

  • Time-domain numerical modeling method for microwave structures
  • Metamaterial based novel antenna design
  • Circuit modeling or plasmonic structures and devices
  • Modeling of novel RF nano-devices

Qualifications:

  • Ph. D., University of Toronto, Canada, 2010.
  • M. A. Sc., McMaster University, Canada, 2006.
  • B. E., Shanghai Jiao Tong University, China, 2004.

Published Journals/ Articles:

Journals

    D. Li, Z. Szabo, X. Qin, E.-P. Li, and Z. Chen, “A high gain antenna based on metamaterial inspired superstrate,” IEEE Trans. Antennas Propagat., vol. 60, pp. 6018-6023, Dec. 2012.

    H. S. Chu, O. Kurniawan, W. Zhang, D. Li, and E.-P. Li, “Integrated system-level electronic design automation (EDA) and simulation of nanophotonic circuits,” IEEE Trans. Nanotech., vol. 11, pp. 731-738, Jul. 2012.

    D. Li and C. D. Sarris, “Time-domain modeling of nonlinear optical structures with extended stability FDTD schemes,” IEEE Journal Lightwave Tech., vol. 29, pp.1003-1010, Feb. 2011.

    D. Li and C. D. Sarris, “A new approach for the FDTD analysis of antennas over periodic substrates,” IEEE Trans. Antennas Propagat., vol. 59, pp. 310-314, Jan. 2011.

    D. Li and C. D. Sarris, “A Unified FDTD Lattice Truncation Method for Dispersive Media Based on Periodic Boundary Conditions,” IEEE Journal Lightwave Tech., vol. 28, pp. 1447-1454, Mar 2010.

    D. Li and C. D. Sarris, “Efficient finite-difference time-domain modeling of driven periodic structures and related microwave circuit applications,” IEEE Trans. Microwave Theory Tech., vol. 56, pp. 1928-1937, Aug. 2008.

    D. Li and N. K. Nikolova, “Electromagnetic optimization using sensitivity analysis in the frequency domain,” IET. Microw. Antenna Propagat., vol. 1, pp-852-859, Jan. 2007.

    N. K. Nikolova, J. Zhu, D. Li, M. Bakr, and J. Bandler, “Sensitivities of network parameters with electromagnetic frequency domain simulator,” IEEE Trans. Microwave Theory Tech., vol. 54, pp. 670-681, Feb. 2006.

     

Conferences

    D. Li, Z. Liu, and E.-P. Li, “Near field coupling and its application to plasmonic devices,” 2013 IEEE International Wireless Symposium, Beijing, China, Apr. 2013.

    D. Li and E.-P. Li, “A high-gain low-profile design based on effective material parameters,” 2013 IEEE International Wireless Symposium, Beijing, China, Apr. 2013.

    D. Li and E.-P. Li, “An improved effective material parameter extraction algorithm for metamaterial application,” 2012 IEEE Asia Pacific Conference on Antennas and Propagation, Singapore, Aug. 2012.

    D. Li and E.-P. Li, “Efficient modeling of passive metal-insulator-metal waveguide components using circuit theory,” 2012 IEEE APEMC Week RF-Nanotechnology Symposium, Singapore, May 2012.

    D. Li and E.-P. Li, “Design of zero-index metamaterial superstrate for antenna gain enhancement using effective medium theory,” 2011 USNC/URSI National Radio Science Meeting, Spokane, WS, U.S., Jul. 2011.

    D. Li, Z. Szabo, X. Qin, E.-P. Li, and Z. Chen, “Zero-index metamaterial inspired superstrate for broadside antenna gain enhancement using effective medium theory,” 2011 A*STAR Metamaterial Workshop, Singapore, Jul. 2011.

    C. D. Sarris, C. Chang, and D. Li, “Theory and application of a spatially-filtering FDTD method with controllable stability beyond the Courant limit,” 2011 IEEE International Symposium on Antennas and Propagation, Spokane, WS, U.S., Jul. 2011.

    D. Li and C. D. Sarris, “FDTD lattice termination with periodic boundary conditions,” 2009 IEEE International Microwave Symposium, Boston, MA, U.S., Jun. 2009.

    D. Li and C. D. Sarris, “A unified treatment of FDTD lattice truncation for dispersive media via periodic boundary conditions,” 2009 IEEE International Symposium on Antennas and Propagation, Charleston, SC, U.S., June 2009.

    D. Li and C. D. Sarris, “Efficient finite-difference time-domain modeling of integrated antennas on periodic substrates,” 2008 IEEE International Symposium on Antennas and Propagation, San Diego, CA, U.S., Jul. 2008.

    D. Li and C. D. Sarris, “Accelerated time-domain modeling of microstrip-based microwave circuit geometries on periodic substrates,” 2008 IEEE International Microwave Symposium, Atlanta, GA, U.S., June 2008.

    D. Li and C. D. Sarris, “Efficient time-domain characterization of planar artificial substrate geometries,” 2008 Applied Computational Electromagnetic Society Conference, Niagara, ON, Canada, Mar. 2008.

    D. Li and C. D. Sarris, “Efficient finite-difference time-domain modeling of driven periodic structures,” 2007 IEEE International Symposium on Antennas and Propagation, Honolulu, HA, U.S., Jul. 2007.

    D. Li, N. K. Nikolova, and M. H. Bakr, “Optimization using Broyden-update self-adjoint sensitivities,” 2006 IEEE International Symposium on Antennas and Propagation, Albuquerque, NM, U.S., Jul. 2006.

    D. Li and N. K. Nikolova, “S-parameter sensitivity analysis of waveguide structures with FEMLAB,” 2005 COMSOL Multiphysics Conference, Boston, MA, U.S., Oct. 2005.

    N. K. Nikolova, J. Zhu, D. Li, and M. H. Bakr, “Extracting the derivatives of network parameters from frequency-domain electromagnetic solutions,” 2005 USNC/URSI National Radio Science Meeting, Washington, DC, U.S., Jul. 2005.


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