Publications

Please visit my Google Scholar page here.

Edited Book

1. Q. Ren, Su Yan, and A. Elsherbeni (ed.), Advances in Time-Domain Computational Electromagnetic Methods, Wiley-IEEE Press, Nov. 2022. ISBN: 978-1-119-80837-4, DOI:10.1002/9781119808404.

Book Chapter

1. Su Yan, “Adaptive Discontinuous Galerkin Time-Domain Method for the Modeling and Simulation of Electromagnetic and Multiphysics Problems," in Advances in Time-Domain Computational Electromagnetic Methods, Q. Ren, Su Yan, and A. Elsherbeni (ed.), Wiley-IEEE Press, Nov. 2022. ISBN: 978-1-119-80837-4.

2. J.-M. Jin and Su Yan, “Multiphysics Modeling with Computational Electromagnetics," in Encyclopedia of RF and Microwave Engineering, 2nd Ed, Hoboken, NJ: John Wiley & Sons, Inc., 2021. In Production.

3. B. M. Notaroš and Su Yan, “New Trends in Finite Element Methods," in New Trends in Computational Electromagnetics, Ö. Ergül (ed.), The IET, pp. 301–355, Oct. 2019. 

Journal Articles

1. C. Díaz-Cáez and Su Yan, “Efficient electromagnetic scattering simulation of electrically extra-large problems using phase information and adaptive mesh automation,” IEEE Trans. Antennas Propag., vol. 72, no. 6, pp. 5191–5200, June 2024. doi: 10.1109/TAP.2024.3393711

2. Su Yan, P. Chen, M. I. Wade, and T. L. Gill, “Optimal pupil basis set for telescope-coronagraph design and perturbation analysis based on the method of moments,” J. Opt. Soc. Am. A, vol. 39, no. 12, pp. 2422–2437, 2022. doi: 10.1364/JOSAA.472995

3. I. Ahmed, Su Yan, D. B. Rawat, and C. Pu, “Dynamic resource allocation for IRS assisted energy harvesting systems with statistical delay constraint," IEEE Trans. Veh. Technol., vol. 71, no. 2, pp. 2158– 2163, Feb. 2022. doi: 10.1109/tvt.2021.3133825.

4. Su Yan, “A continuous–discontinuous Galerkin method for electromagnetic simulations based on an all-frequency stable formulation,” Progress In Electromagnetics Research M, vol. 106, pp. 153–165, 2021. doi: 10.2528/pierm21100412.

5. Su Yan and J.-M. Jin, “An enhanced transient solver with dynamic p-adaptation and multirate time integration for electromagnetic and multiphysics simulations,” International Journal of Numerical Modelling: Electronic Networks, Devices and Fields, Jun. 2019.

6. J.-M. Jin and Su Yan, “Multiphysics modeling in electromagnetics: Technical challenges and potential solutions,” IEEE Antennas Propag. Mag., vol. 61, no. 2, pp. 14-26, Apr. 2019. 

7. P. Karimi, X. Zhang, Su Yan, M. Ostoja-Starzewski, and J.-M. Jin, “Electrostatic and magnetostatic properties of random materials,” Phys. Rev. E, vol. 99, p. 022120, Feb. 2019.

8. Su Yan, J. Qian, and J.-M. Jin, “An advanced electromagnetic–plasma simulator based on the discontinuous Galerkin time-domain algorithm with dynamic adaptation and multirate time integration techniques,” IEEE J. Multiscale and Multiphys. Comput. Techn., vol. 4, pp. 76-87, Feb. 2019. 

9. Su Yan, A. D. Greenwood, and J.-M. Jin, “Simulation of high-power microwave air breakdown modeled by a coupled Maxwell-Euler system with a non-Maxwellian EEDF,” IEEE Trans. Antennas Propag., vol. 66, no. 4, pp. 1882-1893, Apr. 2018.

10. G. Chen, L. Zhao, W. Yu, Su Yan, K. Zhang, and J.-M. Jin, “A general scheme for the DGTD modeling and S-parameter extraction of inhomogeneous waveports,” IEEE Trans. Microw. Theory Tech., vol. 66, no. 4, pp. 1701-1712, Apr. 2018.

11. Su Yan, J. D. Kotulski, and J.-M. Jin, “Nonlinear multiphysics and multiscale modeling of dynamic ferromagnetic-thermal problems,” J. Appl. Phys., vol. 123, no. 10, p. 105107, Mar. 2018.

12. J. Li, Su Yan, Y. Liu, B. M. Hochwald, and J.-M. Jin, “A high-order model for fast estimation of specific absorption rate induced by multiple transmitters in portable devices,” IEEE Trans. Antennas Propag., vol. 65, no. 12, pp. 6768-6778, Dec. 2017.

13. Su Yan, C.-P. Lin, R. R. Arslanbekov, V. I. Kolobov, and J.-M. Jin, “A discontinuous Galerkin time-domain method with dynamically adaptive Cartesian mesh for electromagnetic simulations,” IEEE Trans. Antennas Propag., vol. 65, no. 6, pp. 3122-3133, Jun. 2017.

14. Su Yan and J.-M. Jin, “A dynamic p-adaptive DGTD algorithm for electromagnetic and multiphysics simulations,” IEEE Trans. Antennas Propag., vol. 65, no. 5, pp. 2446-2459, May 2017.

15. Su Yan and J.-M. Jin, “A continuity-preserving and divergence-cleaning algorithm based on purely and damped hyperbolic Maxwell equations in inhomogeneous media,” J. Comput. Phys., vol. 334, pp. 392-418, Apr. 2017.

16. C.-P. Chang, G. Chen, Su Yan, and J.-M. Jin, “Waveport modeling for the DGTD simulation of electromagnetic devices,” International Journal of Numerical Modelling: Electronic Networks, Devices and Fields, Feb. 2017.

17. J. Guan, Su Yan, and J.-M. Jin, “A multi-solver scheme based on combined field integral equations for electromagnetic modeling of highly complex objects,” IEEE Trans. Antennas Propag., vol. 65, no. 3, pp. 1236-1247, Mar. 2017.

18. Y. Wang, Su Yan, and Z. Nie, “A point-adaptive grouping scheme of MLFMA for electromagnetic simulation,” IEEE Trans. Antennas Propag.,  IEEE Trans. Antennas Propag., vol. 64, no. 12, pp. 5527-5530, Dec. 2016.

19. J. Guan, Su Yan, and J.-M. Jin, “A multisolver scheme based on Robin transmission conditions for electromagnetic modeling of highly complex objects,” IEEE Trans. Antennas Propag., vol. 64, no. 12, pp. 5345-5358, Dec. 2016.

20. Su Yan and J.-M. Jin, “A fully coupled nonlinear scheme for time-domain modeling of high-power microwave air breakdown,” IEEE Trans. Microw. Theory Techn., vol. 64, no. 9, pp. 2718-2729, Sept. 2016.

21. Su Yan, A. D. Greenwood, and J.-M. Jin, “Modeling of plasma formation during high-power microwave breakdown in air using the discontinuous Galerkin time-domain method (Invited Paper),” IEEE J. Multiscale and Multiphys. Comput. Techn., vol. 1, pp. 2-13, 2016.

22. Su Yan and J.-M. Jin, “Three-dimensional time-domain finite-element simulation of dielectric breakdown based on nonlinear conductivity model,” IEEE Trans. Antennas Propag., vol. 64, no. 7, pp. 3018-3026, Jul. 2016.

23. Su Yan and J.-M. Jin, “Theoretical formulation of a time-domain finite element method for nonlinear magnetic problems in three dimensions (Invited Paper),” in the Commemorative Collection on the 150-Year Anniversary of Maxwell's Equations, Progress In Electromagnetics Research, vol. 153, pp. 33–55, 2015.

24. Su Yan, J.-M. Jin, C.-F. Wang, and J. Kotulski, “Numerical study of a time-domain finite elementmethod for nonlinear magnetic problems in three dimensions (Invited Paper),” Progress In Electromagnetics Research, vol. 153, pp. 69–91, 2015.

25. J. Guan, Su Yan, and J.-M. Jin, “An accurate and efficient finite element-boundary integral method with GPU acceleration for 3-D electromagnetic analysis,” IEEE Trans. Antennas Propag., vol. 62, no. 12, pp. 6325-6336, Dec. 2014.

26. B. M. Hochwald, D. J. Love, Su Yan, P. Fay, and J.-M. Jin, “Incorporating specific absorption rate (SAR) constraints into wireless signal design,” IEEE Commun. Mag., vol. 52, no. 9, pp. 126-133, Sept. 2014.

27. Su Yan and J.-M. Jin, “Self-dual integral equations for electromagnetic scattering from IBC objects,” IEEE Trans. Antennas Propag., vol. 61, no. 11, pp. 5533-5546, Nov. 2013.

28. J. Guan, Su Yan, and J.-M. Jin, “An openMP-CUDA implementation of multilevel fast multipole algorithm for electromagnetic simulation on multi-GPU computing systems,” IEEE Trans. Antennas Propag., vol. 61, no. 7, pp. 3607-3616, Jul. 2013.

29. Su Yan, J.-M. Jin, and Z. Nie, “Accuracy improvement of the second-kind integral equations for generally shaped objects,” IEEE Trans. Antennas Propag., vol. 61, no. 2, pp. 788–797, Feb. 2013.

30. Z. Nie, S. Ren, Su Yan, S. He, and J. Hu, “Modified phase extracted basis functions for efficient analysis of scattering from electrically large targets,” Proc. IEEE, vol. 101, no. 2, pp. 401-413, Feb. 2013.

31. Su Yan, S. Ren, Z. Nie, S. He, and J. Hu, “Efficient analysis of electromagnetic scattering from electrically large complex objects by using phase extracted basis functions,” IEEE Antennas Propag. Mag., vol. 54, no. 5, pp. 88–108, Oct. 2012.

32. Su Yan, J.-M. Jin, and Z. Nie, “Analysis of electrically large problems using the augmented EFIE with a Calderón preconditioner,” IEEE Trans. Antennas Propag., vol. 59, no. 6, pp. 2303–2314, Jun. 2011.

33. Su Yan, J.-M. Jin, and Z. Nie, “Improving the accuracy of the second-kind Fredholm integral equations by using the Buffa-Christiansen functions,” IEEE Trans. Antennas Propag., vol. 59, no. 4, pp. 1299–1310, Apr. 2011.

34. Su Yan, J.-M. Jin, and Z. Nie, “Calderón preconditioner: From EFIE and MFIE to N-Müller equations,” IEEE Trans. Antennas Propag., vol. 58, no. 12, pp. 4105–4110, Dec. 2010.

35. Su Yan, J.-M. Jin, and Z. Nie, “A comparative study of Calderón preconditioners for PMCHWT equations,” IEEE Trans. Antennas Propag., vol. 58, no. 7, pp. 2375–2383, Jul. 2010.

36. Su Yan, J.-M. Jin, and Z. Nie, “EFIE analysis of low-frequency problems with loop-star decomposition and Calderón multiplicative preconditioner,” IEEE Trans. Antennas Propag., vol. 58, no. 3, pp. 857–867, Mar. 2010. (Best Student Paper Award, IEEE Chengdu Section, 2010)

37. Su Yan, S. He, Z. Nie, and J. Hu, “Simulating wide band radar response from PEC targets using phase extracted basis functions,” Progress In Electromagnetics Research B, vol. 13, pp. 409–431, 2009.

38. Z. Nie, Su Yan, S. He, and J. Hu, “On the basis functions with traveling wave phase factor for efficient analysis of scattering from electrically large targets,” Progress In Electromagnetics Research, PIER, vol. 85, pp. 83–114, 2008.

Conference Proceedings

1. C. Díaz-Cáez and Su Yan, “Geometry- and physics-aware h-p adaptation algorithm for efficient electromagnetic scattering simulation (Invited Paper),” in Proc. ICEAA-IEEE APWC 2024, Lisbon, Portugal, Sept. 2024.

2. C. Díaz-Cáez and Su Yan, “Efficient analysis of electromagnetic scattering from complex structures using phase-informed higher-order basis functions and adaptive p-refinement,” in Proc. IEEE Antennas Propag. Symp., Florence, Italy, July 2024.

3. M. Mekonnen and Su Yan, “A simplified all-frequency stable formulation with an implicit Coulomb gauge,” in Proc. IEEE Antennas Propag. Symp., Florence, Italy, July 2024.

4. M. Mekonnen and Su Yan, “A novel A-φ formulation for efficient electromagnetic computations,” in 2024 International Applied Computational Electromagnetics Society (ACES) Symposium, Orlando, FL, USA, May 2024.

5. C. Díaz-Cáez and Su Yan, “A phase-informed p-adaptation method for electromagnetic scattering analysis,” in 2024 International Applied Computational Electromagnetics Society (ACES) Symposium, Orlando, FL, USA, May 2024.

6. Su Yan, L. Wise, and P. Chen, “Application of the method of moments in telescope coronagraph pupil and focal plane mask design (Invited Paper),” in Proc. ICEAA-IEEE APWC 2023, Venice, Italy, Oct. 2023.

7. Su Yan and A. O. Idubor, “Parameter identification for symmetrical Prandtl-Ishlinskii hysteresis model using Gauss-Newton method,” in Proc. IEEE Antennas Propag. Symp., Portland, OR, USA, July 2023.

8. C. Díaz-Cáez and Su Yan, “Traveling and standing wave recognition based on PE basis functions and standing wave ratio,” in Proc. IEEE Antennas Propag. Symp., Portland, OR, USA, July 2023.

9. M. Mekonnen and Su Yan, “Comparative investigation of iterative solutions of the all-frequency stable formulation and its vector-potential-only variation,” in Proc. IEEE Antennas Propag. Symp., Portland, OR, USA, July 2023.

10. Su Yan, L. Wise and P. Chen, “Telescope coronagraph focal plane mask design using the method of moments and a constrained least squares,” in 2023 IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization, Winnipeg, Canada, June 2023.

11. M. Mekonnen and Su Yan, “An efficient solution of low-frequency magnetic problems with volt- age sources using all-frequency stable formulation,” in 2023 IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization, Winnipeg, Canada, June 2023.

12. C. Díaz-Cáez and Su Yan, “An automated adaptive h-refinement technique for solving SIEs with nonconformal meshes,” in 2023 International Applied Computational Electromagnetics Society (ACES) Symposium, Monterey, CA, USA, March 2023.

13. Su Yan and P. Chen, “Fast reconstruction of optimal pupil apodization for telescope coronagraph design based on the method of moments,” in 2023 International Applied Computational Electromagnetics Society (ACES) Symposium, Monterey, CA, USA, March 2023.

14. C. Díaz-Cáez and Su Yan, “An automatic mesh refinement method based on phase extracted basis functions for electromagnetic scattering analysis of electrically extra-large objects (Invited Paper),” in Proc. ICEAA-IEEE APWC 2022, Cape Town, South Africa, Sept. 2022.  

15. M. Mekonnen and Su Yan, “An eigen decomposition method for finite element analysis of electro- magnetic problems,” in Proc. IEEE Antennas Propag. Symp., Denver, CO, USA, July 2022.

16. C. Díaz-Cáez and Su Yan, “A pattern-recognition-based mesh refinement method for the moment method analysis of electromagnetic scattering problems,” in Proc. IEEE Antennas Propag. Symp., Denver, CO, USA, July 2022.

17. Su Yan, P. Chen, M. I. Wade, T. L. Gill, and J. T. Trauger, “Model order reduction based sensitivity analysis of coronagraph pupil aperture,” in Proc. IEEE Antennas Propag. Symp., Denver, CO, USA, July 2022.

18. Su Yan, “A continuous-discontinuous Galerkin method for the modeling and simulation of electro- magnetic multiscale problems,” in Proc. ICEAA-IEEE APWC 2021, Honolulu, Hawaii, USA, Aug. 2021.

19. Su Yan, P. Chen, M. I. Wade, T. L. Gill, and J. T. Trauger, “Method of moments based coronagraph pupil design for exoplanet exploration,” in 2021 International Applied Computational Electromagnetics Society (ACES) Symposium, online, USA, Aug. 2021.

20. J.-M. Jin, J. Qian, and Su Yan, “A dynamically adaptive DGTD for multiphysics and multiscale modeling," in URSI GASS 2020, Rome, Italy, Aug. 2020.

21. Su Yan, J. Qian, and J.-M.Jin, "An adaptive discontinuous Galerkin time-domain method for multiphysics and multiscale simulations," in Proc. ICEAA-IEEE APWC 2019, Granada, Spain, Sept. 2019.

22. Su Yan, "A resonant-free integral formulation for EM scattering from electrically large high-Q cavities," in Proc. IEEE Antennas Propag. Symp., Atlanta, GA, USA, July 2019.

23. Su Yan, "All-frequency stable potential-based formulation for electromagnetic modeling and simulation," in Proc. IEEE Antennas Propag. Symp., Atlanta, GA, USA, July 2019.

24. Su Yan and J.-M. Jin, "Advanced discontinuous Galerkin time-domain methods for challenging engineering problems," in Proc. IEEE Antennas Propag. Symp., Atlanta, GA, USA, July 2019.

25. Su Yan and J.-M. Jin, "A DGTD-based multiscale simulator for electromagnetic multiphysics problems," in Proc. IEEE Antennas Propag. Symp., Atlanta, GA, USA, July 2019.

26. J. Qian, Su Yan, and J.-M. Jin, "A DGTD algorithm with dynamic h-adaptation and multirate time integration techniques for EM--plasma interaction simulations," in Proc. IEEE Antennas Propag. Symp., Atlanta, GA, USA, July 2019.

27. Su Yan, "All-frequency stable finite-element formulation and application in electromagnetic multiscale problems," in 2019 IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization, Cambridge, MA, USA, May 2019.

28. Su Yan, "Effective electromagnetic parameter extractions for porous media using a potential-based formulation,'' in 2019 International Applied Computational Electromagnetics Society (ACES) Symposium, Miami, FL, USA, April 2019.

29. J. Guan, Su Yan, K. Zhang, and J.-M. Jin, “A parallelized multi-solver algorithm for solving large and complex electromagnetic problems,” in Proc. ICEAA-IEEE APWC 2018, Cartagena De Indias, Colombia, Sept. 2018.

30. Su Yan and J.-M. Jin, “An efficient transient EM solver with dynamic p-adaptation and multirate time integration,” in Proc. IEEE Antennas Propag. Symp., Boston, MA, USA, July 2018.

31. Su Yan and J.-M. Jin, “A multiscale time integration method for coupled nonlinear electrical–thermal simulation,” in Proc. IEEE Antennas Propag. Symp., Boston, MA, USA, July 2018.

32. Su Yan, J.-M. Jin, R. R. Arslanbekov, and V. I. Kolobov, “A dynamically h-adaptive discontinuous Galerkin time-domain method for electromagnetic field simulation,” in Proc. ICEAA-IEEE APWC 2017, Verona, Italy, Sept. 2017.

33. J. Guan, Su Yan, K. Zhang, and J.-M. Jin, “A multi-solver algorithm for electromagnetic modeling of complex objects,” in Proc. URSI General Assembly and Scientific Symposium, Montreal, Canada, Aug. 2017.

34. Su Yan, A. D. Greenwood, and J.-M. Jin, “DGTD simulation of HPM air breakdown using a 5-moment fluid model and non-Maxwellian EEDF,” in Proc. IEEE Antennas Propag. Symp., San Diego, CA, USA, July 2017.

35. Su Yan, J. Kotulski, and J.-M. Jin, “Magnetic–thermal co-simulation of nonlinear magnetic materials at high frequencies,” in Proc. IEEE Antennas Propag. Symp., San Diego, CA, USA, July 2017.

36. J. Guan, Su Yan, and J.-M. Jin, “Electromagnetic simulation of specific absorption rate at 5G frequencies with a simplified human head model and a multi-solver method,” in Proc. IEEE Antennas Propag. Symp., San Diego, CA, USA, July 2017.

37. J. Guan, Su Yan, K. Zhang, and J.-M. Jin, “An MPI-accelerated multi-solver algorithm for electromagnetic modeling of complex objects,” in Proc. IEEE Antennas Propag. Symp., San Diego, CA, USA, July 2017.

38. J. Li, Su Yan, Y. Liu, J.-M. Jin, and B. M. Hochwald, “A high-order SAR model for multiple transmitters in portable devices,” in Proc. IEEE Antennas Propag. Symp., San Diego, CA, USA, July 2017.

39. G. L. Wang, A. Abubakar, D. Allen, and Su Yan, “Determining anisotropic resistivity in the presence of invasion with triaxial induction data," in SPWLA 58th Annual Logging Symposium, Oklahoma City, OK, USA, June, 2017.

40. J. Guan, Su Yan, and J.-M. Jin, “A multi-solver framework for electromagnetic analysis,” in Proc. ICEAA-IEEE APWC 2016, Cairns, Australia, Sept. 2016.

41. Su Yan, A. D. Greenwood, and J.-M. Jin, “Nonlinear modeling of plasma shielding effect during high-power microwave breakdown,” in Proc. IEEE Antennas Propag. Symp., Fajardo, Puerto Rico, June 2016.

42. Su Yan and J.-M. Jin, “A GPU accelerated dynamic p-adaptation for simulation of EM-plasma interaction,” in Proc. IEEE Antennas Propag. Symp., Fajardo, Puerto Rico, June 2016.

43. Su Yan and J.-M. Jin, “Continuity-preserving purely hyperbolic Maxwell equations in inhomogeneous media,” in Proc. IEEE Antennas Propag. Symp., Fajardo, Puerto Rico, June 2016.

44. J.-M. Jin and Su Yan, “CEM challenges in multiphysics modeling and simulation (invited paper),” in Proc. IEEE Antennas Propag. Symp., Fajardo, Puerto Rico, June 2016.

45. J. Guan, Su Yan, and J.-M. Jin, “A multi-solver framework for electromagnetic scattering from complex objects,” in Proc. IEEE Antennas Propag. Symp., Fajardo, Puerto Rico, June 2016.

46. J. Guan, Su Yan, and J.-M. Jin, “A CFIE-based electromagnetic solver for composite objects,” in Proc. IEEE Antennas Propag. Symp., Fajardo, Puerto Rico, June 2016.

47. C. P. Lin, Su Yan, R. R. Arslanbekov, V. Kolobov, and J.-M. Jin, “A DGTD algorithm with dynamic h-adaptation and local time-stepping for solving Maxwell’s equations,” in Proc. IEEE Antennas Propag. Symp., Fajardo, Puerto Rico, June 2016.

48. Su Yan and J.-M. Jin, “Coupled discontinuous Galerkin time-domain simulation of the nonlinear electromagnetic-plasma interaction,” in The 13th International Workshop on Finite Elements for Microwave Engineering (FEM2016), Florence, Italy, May 2016.

49. Su Yan and J.-M. Jin, “Discontinuous Galerkin time-domain solution of the purely hyperbolic Maxwell equations,” in 2016 IEEE International Conference on Wireless Information Technology and Systems (ICWITS) and Applied Computational Electromagnetics (ACES), Honolulu, HI, Mar. 2016.

50. Su Yan and J.-M. Jin, “A dynamic p-adaptation algorithm for the DGTD simulation of nonlinear EM-plasma interaction,” in 2016 IEEE International Conference on Wireless Information Technology and Systems (ICWITS) and Applied Computational Electromagnetics (ACES), Honolulu, HI, Mar. 2016. (Best Student Paper Award, The First Place Winner)

51. Su Yan and J.-M. Jin, “Nonlinear finite element formulation and analysis of high-power air/dielectric breakdown in time domain,” in Proc. ICEAA-IEEE APWC 2015, Torino, Italy, Sept. 2015.

52. Su Yan and J.-M. Jin, “Time-domain finite element modeling of nonlinear conductivity using Newton’s method,” in Proc. IEEE Antennas Propag. Symp., Vancouver, BC, Canada, July 2015.

53. Su Yan and J.-M. Jin, “Time-domain nonlinear finite element analysis of air breakdown using a simplified plasma model,” in Proc. IEEE Antennas Propag. Symp., Vancouver, BC, Canada, July 2015.

54. Su Yan and J.-M. Jin, “A hybrid finite element–discontinuous Galerkin solver for analyzing electromagnetics-plasma interaction in four dimensions,” in Proc. IEEE Antennas Propag. Symp., Vancouver, BC, Canada, July 2015.

55. Su Yan, G. L. Wang, and A. Abubakar, “Two-dimensional inversion of triaxial induction logging data in transversely isotropic formation,” in Proc. IEEE Antennas Propag. Symp., Vancouver, BC, Canada, July 2015.

56. K. D. Zhang, Su Yan, and J.-M. Jin, “Accurate and efficient simulation of scattering by large objects with anisotropic impedance surfaces,” in Proc. ICEAA-IEEE APWC 2014, Palm Beach, Aruba, Aug. 2014.

57. J. Guan, Su Yan, and J.-M. Jin, “An FE-BI-MLFMA with GPU acceleration for electromagnetic scattering analysis,” in Proc. IEEE Antennas Propag. Symp., Memphis, TN, July 2014.

58. J. Guan, Su Yan, and J.-M. Jin, “A GPU-accelerated integral-equation solution for large-scale electromagnetic problems,” in Proc. IEEE Antennas Propag. Symp., Memphis, TN, July 2014.

59. Su Yan, J. Kotulski, C.-F. Wang, and J.-M. Jin, “A nonuniform time-stepping scheme for nonlinear electromagnetic analysis using time-domain finite element method,” in Proc. IEEE Antennas Propag. Symp., Memphis, TN, July 2014.

60. Su Yan, C.-F. Wang, J. Kotulski, and J.-M. Jin, “Time-domain finite element analysis of ferromagnetic hysteresis in three dimensions,” in Proc. IEEE Antennas Propag. Symp., Memphis, TN, July 2014.

61. J. Guan, Su Yan, and J.-M. Jin, “A GPU-accelerated FE-BI-MLFMA for electromagnetic scattering simulation,” in The 12th International Workshop on Finite Elements for Microwave Engineering (FEM2014), Chengdu, China, May 2014.

62. Su Yan and J.-M. Jin, “Nonlinear magnetic analysis using time-domain finite element method with a nonuniform time stepping,” in The 12th International Workshop on Finite Elements for Microwave Engineering (FEM2014), Chengdu, China, May 2014.

63. Su Yan and J.-M. Jin, “Ferromagnetic hysteresis analysis using time-domain finite element method in three dimensions,” in The 12th International Workshop on Finite Elements for Microwave Engineering  (FEM2014), Chengdu, China, May 2014.

64. J. Guan, Su Yan, and J.-M. Jin, “A CUDA implementation of the finite element-boundary integral method for electromagnetic scattering simulation,” in Proc. IEEE Antennas Propag. Symp., Orlando, FL, Jul. 2013.

65. Su Yan and J.-M. Jin, “Analysis of nonlinear electromagnetic problems using time-domain finite element method,” in Proc. IEEE Antennas Propag. Symp., Orlando, FL, Jul. 2013.

66. Su Yan, J.-M. Jin, and Z. Nie, “Multilevel fast multipole algorithm for mixed combined-field integral equations,” in Proc. IEEE Antennas Propag. Symp., Orlando, FL, Jul. 2013.

67. Su Yan and J.-M. Jin, “A self-dual integral equation for solving EM scattering from PEC, PMC, and IBC objects,” in Proc. IEEE Antennas Propag. Symp., Orlando, FL, Jul. 2013.

68. Su Yan, J.-M. Jin, and Z. Nie, “Accurate and highly convergent solution of integral equations for electromagnetic problems,” in Proc. URSI Commission B 2013 International Symposium on Electromagnetic Theory, Hiroshima, Japan, May 2013.

69. B. M. Hochwald, D. J. Love, Su Yan, and J.-M. Jin, “SAR Codes,” in Information Theory and Applications Workshop (ITA), San Diego, CA, Feb. 2013.

70. J. Guan, Su Yan, and J.-M. Jin, “OpenMP-CUDA implementations of the Moment Method and multilevel fast multipole algorithm on multi-GPU computing systems,” in Proc. IEEE Antennas Propag. Symp., Chicago, IL, Jul. 2012.

71. Su Yan, J.-M. Jin, and Z. Nie, “Improve the accuracy of the second-kind integral equations for generally shaped objects,” in Proc. IEEE Antennas Propag. Symp., Chicago, IL, Jul. 2012.

72. Su Yan, J.-M. Jin, and Z. Nie, “A higher-order Calderón preconditioner for the electric-field integral equation using the Nyström scheme,” in Proc. IEEE Antennas Propag. Symp., Spokane, WA, Jul. 2011.

73. Su Yan, J.-M. Jin, and Z. Nie, “On the testing of the identity operator and the accuracy improvement of the second-kind SIEs,” in Proc. IEEE Antennas Propag. Symp., Spokane, WA, Jul. 2011.

74. Su Yan, J.-M. Jin, and Z. Nie, “Accuracy improvement of the numerical solutions to the second-kind integral equations for electromagnetic scattering analysis,” in The 27th International Review of Progress in Applied Computational Electromagnetics (ACES 2011), Williamsburg, VA, Mar. 2011. (Best Student Paper Award, The First Place Winner)

75. Su Yan, J.-M. Jin, and Z. Nie, “Calderón preconditioning techniques for integral equation based methods (Invited),” in Proc. URSI Commission B 2010 International Symposium on Electromagnetic Theory, Berlin, Germany, Aug. 2010.

76. Su Yan, J.-M. Jin, and Z. Nie, “A study of the augmented EFIE with a Calderón preconditioner,” in Proc. IEEE Antennas Propag. Symp., Toronto, Ontario, Canada, Jul. 2010.

77. Su Yan, J.-M. Jin, and Z. Nie, “Derivation of N-Müller equations using Calderón identities,” in Proc. IEEE Antennas Propag. Symp., Toronto, Ontario, Canada, Jul. 2010.

78. Su Yan, J.-M. Jin, and Z. Nie, “A comparative study of different Calderón preconditioned PMCHWT formulations,” in Proc. IEEE Antennas Propag. Symp., Toronto, Ontario, Canada, Jul. 2010.

79. Su Yan, J.-M. Jin, and Z. Nie, “Analysis of low-frequency electromagnetic problems using the EFIE with a Calderón multiplicative preconditioner and loop-star decomposition,” in Proc. IEEE Antennas Propag. Symp., North Charleston, SC, Jun. 2009.

80. Su Yan, J.-M. Jin, and Z. Nie, “Implementation of the Calderón multiplicative preconditioner for the EFIE solution with curvilinear triangular patches,” in Proc. IEEE Antennas Propag. Symp., North Charleston, SC, Jun. 2009.

81. S. He, Z. Nie, Su Yan, and J. Hu, “Multi-layer TDS approximation used to numerical solution for dielectric objects,” in Asia-Pacific Microwave Conference, Hong Kong, China, Dec. 2008.

82. Su Yan and Z. Nie, “A set of novel surface integral equations for electromagnetic scattering from homogeneous penetrable objects,” in Asia-Pacific Microwave Conference, Hong Kong, China, Dec. 2008.

83. X. Zong, Z. Nie, Su Yan, and S. He, “Applications of the PE-basis function in hybrid MOM-PO methods,” in Proc. IEEE Antennas Propag. Symp., San Diego, California, USA, Jul. 2008.

84. S. He, Su Yan, and Z. Nie, “Scattering analysis of dielectric-coated metallic targets based on phase extracted basis functions,” in Proc. IEEE Antennas Propag. Symp., San Diego, California, USA, Jul. 2008.

85. W. C. Chew, C. P. Davis, K. F. Warnick, Z. P. Nie, J. Hu, Su Yan, and L. Gürel, “EFIE and MFIE, why the difference?” in Proc. IEEE Antennas Propag. Symp., San Diego, California, USA, Jul. 2008.

86. Su Yan and Z. Nie, “On the Rayleigh-Ritz scheme of 3D MFIE and its normal solution,” in Proc. IEEE Antennas Propag. Symp., San Diego, California, USA, Jul. 2008.

87. Su Yan, S. He, Z. Nie, and J. Hu, “Calculating wide band responses from metallic objects by employing the phase extracted basis functions,” in Proc. IEEE Antennas Propag. Symp., San Diego, California, USA, Jul. 2008.

88. Su Yan, Z. Nie, S. He, and J. Hu, “Using matrix sparsification and impedance prediction technique with phase extracted basis functions to improve the method of moments,” in Proc. IEEE Antennas Propag. Symp., San Diego, California, USA, Jul. 2008.

89. Z. Nie, Su Yan, S. He, and J. Hu, “The basis functions involving propagating wave phase dependency for solving the scattering from electrically large targets,” in Proc. IEEE Antennas Propag. Symp., San Diego, California, USA, Jul. 2008.

90. Su Yan and Z. Nie, “A novel mixed basis function for method of moment,” in Proceedings of Asia-Pacific Microwave Conference, vol. 3, Suzhou, China, Dec. 2005.