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Weng Cho Chew

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Weng Cho Chew
周永祖
Born1953 (age 70–71)
Malaysia
Citizenship
  • Malaysia
  • United States
Alma materMassachusetts Institute of Technology
Known forTheory of waves in inhomogeneous media
Scientific career
Fields
Institutions
ThesisMixed boundary value problems in microstrip and geophysical probing applications (1980)
Doctoral advisorJin Au Kong

Weng Cho Chew (Chinese: 周永祖; pinyin: Zhōu Yǒngzǔ; Jyutping: Zau1 Wing5 Zou2; Pe̍h-ōe-jī: Chiu Éng-chó͘ ; born 1953 in Malaysia) is a Malaysian-American electrical engineer and applied physicist known for contributions to wave physics, especially computational electromagnetics. He is a Distinguished Professor of Electrical and Computer Engineering at Purdue University.[1]

Career

Chew received his bachelor's, master's and PhD degrees in electrical engineering from the Massachusetts Institute of Technology in 1976, 1978 and 1980, respectively. Following his doctoral studies, Chew joined Schlumberger-Doll Research in 1981 where he rose to the rank of department manager. In 1985, he accepted a position at the University of Illinois Urbana-Champaign, where he was director of the electromagnetics lab from 1995 to 2007.[2]  From 2007 to 2011, Chew served as dean of engineering at the University of Hong Kong. In 2017, Chew joined the school of electrical and computer engineering at Purdue University.

Chew's chief contributions are in the areas of waves in inhomogeneous media for various geophysical subsurface sensing and non-destructive testing applications,[3][4][5][6] integrated circuits,[7][8][9][10][11] microstrip antenna applications,[12][13][14][15][16] fast and efficient algorithms for solving wave scattering and radiation problems,[17][18][19][20][21][22] stretched coordinate perfectly matched layers,[23][24][25][26] and inverse scattering using distorted Born approximation.[27][28][29][30][31][32]

Chew has developed fast solvers that make it possible to simulate the electromagnetic behavior of structures of unprecedented sizes.[33] Specifically, his group had the first working multilevel fast multipole algorithm (MLFMA) that when adopted by other groups, subsequently helped increase the size of solvable problems by six orders of magnitude.[34][35][36][37] More recently, Chew has turned his attention toward combining quantum theory with electromagnetics, as well as combining computational electromagnetics with differential geometry.[38][39][40][41] He has also recently derived quantum Maxwell's equations directly in coordinate space.[42]

Chew is the author of Waves and Fields in Inhomogeneous Media (Van Nostrand Reinhold 1990; reprinted by IEEE Press, 1995), the co-author of Integral Equation Methods for Electromagnetic and Elastic Waves (Morgan & Claypool, 2008), and co-editor of Fast and Efficient Algorithms in Computational Electromagnetics (Artech House, 2001). In 2018, Chew served as President of the IEEE Antennas and Propagation Society.[43] He is editor-in-chief of Progress in Electromagnetic Research and previously was editor-in-chief of the Journal of Electromagnetic Waves and Applications.[44] He has helped organize the PIERS meetings around the world.

Notable students or postdoctoral researchers of Chew include: Qing Huo Liu (Duke University),[45] Mahta Moghaddam (University of Southern California),[46] Fernando Teixeira (Ohio State University),[47] Kaladhar Radhakrishnan (Intel),[48] Lijun Jiang (Chinese University of Hong Kong),[49] Phil Atkins (KLA Tencor), Jiming Song (Iowa State University),[50] and Karl Warnick (Brigham Young University).[51]

Awards and honors

Chew was elected Member of the National Academy of Engineering in 2013, “for contributions to large-scale computational electromagnetics of complex structures.”[52] He is a Fellow of the Institute of Electrical and Electronics Engineers (IEEE) (1993),[53] the Optical Society of America (2003),[54] the Institute of Physics (2004), the Electromagnetics Academy (2007)[55] and the Hong Kong Institution of Engineers (2009).  Chew received the IEEE Electromagnetics Award in 2017,[56] the Applied Computation Electromagnetics Society Award in Computational Electromagnetics in 2015,[57] and the IEEE Antennas and Propagation Society Chen-To Tai Distinguished Educator Award in 2008, “[f]or outstanding contributions to education in the fields of electromagnetic theory and computational electromagnetics.”[58] He also received the Sergei A. Schelkunoff Best Paper Award from IEEE Transactions on Antennas and Propagation (with Jun-Sheng Zhao) in 2001,[59] the Campus Wide Excellence in Professional and Graduate Teaching Award from the University of Illinois Urbana-Champaign in 2001, and the IEEE Leon K. Kirchmayer Graduate Teaching Award in 2000,[60] among other recognitions. Chew was named an ISI Highly Cited Researcher in 2001[61] and he is an honorary professor at Tsinghua University, China, honorary professor at National Taiwan University, Taipei, and a distinguished visiting scholar at The University of Hong Kong.[62]

Recent publications

Books
  • Chew WC, Waves and Fields in Inhomogeneous Media, IEEE, 1995.
  • Chew WC, Jin HM, Michielssen E, Song J, (Eds), Fast and Efficient Algorithms in Computational Electromagnetics, Artech House, 2001.
  • Chew WC, Tong MS, Hu B, Integral Equation Methods for Electromagnetic and Elastic Waves, Springer, 2022.
  • Tong MS, Chew WC, The Nyström Method in Electromagnetics, Wiley-IEEE, 2020.
Articles
  • Xia, T., Atkins, P., Sha, W. E. I., & Chew, W. C. (open access) "Casimir Force: Vacuum Fluctuation, Zero-Point Energy, and Computational Electromagnetics," IEEE Antennas and Propagation Magazine. doi:10.1109/MAP.2021.3073118.
  • Chew, W. C., Na, D.-Y., Roth, T. E., Ryu, C. J., & Kudeki, E. (2021) "Quantum Maxwell's Equations Made Simple," IEEE Antennas and Propagation Magazine.
  • Volume: 63, Issue: 1, Feb.
  • Na, D.-Y. & Chew, W. C. (2020) "Classical and Quantum Electromagnetic Interferences: What Is The Difference?," Progress In Electromagnetics Research, 168: 1–13.
  • Na, D.-Y., Zhu, J., Chew, W. C., & Teixeira, F. L. (2020) "Quantum information preserving computational electromagnetics," Physical Review A, 102(1): 013711.
  • Na, D.-Y. Na & Chew, W. C. (2020) "Quantum Electromagnetic Finite-Difference Time Domain Solver," Quantum Reports, 2: 253-265.
  • Chew, W. C., Liu, A. Y., Salazar-Lazaro, C., Na, D.-Y., & Sha, W. E. I. (2019) "Hamilton Equations, Commutator, and Energy Conservation," Quantum Reports, 1: 295–303.
  • Sha, W. E. I., Liu, A. Y., and Chew, W. C. (2018) "Dissipative quantum electromagnetics," IEEE Journal on Multiscale and Multiphysics Computational Techniques, 3:198–213.
  • Chen, S. C., & Chew, W. C. (2017) "Numerical electromagnetic frequency domain analysis with discrete exterior calculus," Journal of Computational Physics, 350:668–689.
  • Chew, W. C. (2016) "Quantum mechanics made simple: Lecture notes UIUC," http://wcchew.ece.illinois.edu/chew/course/QMAll20161206.pdf.
  • Chew, W. C., Liu, A. Y., Salazar-Lazaro, C., & Sha, W. E. I. (2016) "Quantum Electromagnetics: A New Look—Part I," IEEE Journal on Multiscale and Multiphysics Computational Techniques, 1:73–84.
  • Chew, W. C., Liu, A. Y., Salazar-Lazaro, C., & Sha, W. E. I. (2016) "Quantum Electromagnetics: A New Look—Part II," IEEE Journal on Multiscale and Multiphysics Computational Techniques, 1: 85–97.
  • Dai, Q. I., Liu, Q. S., Gan, H. U., & Chew, W. C. (2015) "Combined field integral equation-based theory of characteristic mode," IEEE Transactions on Antennas and Propagation, 63(9): 3973–3981.
  • Atkins, P. R., Chew, W. C., Li, M., Sun, L. E., Ma, Z. H., & Jiang, L. J. (2014) "Casimir force for complex objects using domain decomposition techniques," Progress In Electromagnetics Research, 149: 275–280.
  • Chew, W.C. (2014) "Vector potential electromagnetics with generalized gauge for inhomogeneous media: Formulation." Progress In Electromagnetics Research, 149: 69–84.
  • Atkins, P. R., Dai, Q. I., Sha, W. E. I., & Chew, W. C. (2013) "Casimir Force for Arbitrary Objects Using the Argument Principle and Boundary Element Methods," Progress In Electromagnetics Research, 142: 615–624.

See also

References

  1. ^ "Weng Cho Chew". engineering.purdue.edu. Retrieved 2019-08-12.
  2. ^ "Weng Cho Chew". ieeexplore.ieee.org. Retrieved 2019-08-12.
  3. ^ Chew, Weng Cho. (1995). Waves and fields in inhomogeneous media. New York: IEEE Press. ISBN 9780470547052. OCLC 557450204.
  4. ^ Chew, W. C.; Barone, S.; Anderson, B.; Hennessy, C. (September 1984). "Diffraction of Axisymmetric Waves in a Borehole by Bed Boundary Discontinuities". Exploration Geophysics. 15 (3): 192–193. Bibcode:1984Geop...49.1586C. doi:10.1071/EG984192a. ISSN 0812-3985.
  5. ^ Chew, W. C.; Kong, J. A. (March 1981). "Electromagnetic field of a dipole on a two-layer earth". Geophysics. 46 (3): 309–315. Bibcode:1981Geop...46..309C. doi:10.1190/1.1441201. ISSN 0016-8033.
  6. ^ Chew, W. C.; Sen, P. N. (November 1982). "Dielectric enhancement due to electrochemical double layer: Thin double layer approximation". The Journal of Chemical Physics. 77 (9): 4683–4693. Bibcode:1982JChPh..77.4683C. doi:10.1063/1.444369. ISSN 0021-9606.
  7. ^ Zhi-Guo Qian; Weng Cho Chew (November 2009). "Fast Full-Wave Surface Integral Equation Solver for Multiscale Structure Modeling". IEEE Transactions on Antennas and Propagation. 57 (11): 3594–3601. Bibcode:2009ITAP...57.3594Z. doi:10.1109/TAP.2009.2023629. ISSN 0018-926X. S2CID 22918385.
  8. ^ Li, Mao-Kun; Chew, Weng C.; Jiang, Li J. (September 2006). "A domain decomposition scheme based on equivalence theorem". Microwave and Optical Technology Letters. 48 (9): 1853–1857. doi:10.1002/mop.21777. ISSN 0895-2477. S2CID 110316672.
  9. ^ Jiang, L.J.; Chew, W.C. (2004-01-20). "Low-frequency fast inhomogeneous plane-wave algorithm (LF-FIPWA)". Microwave and Optical Technology Letters. 40 (2): 117–122. doi:10.1002/mop.11302. ISSN 0895-2477. S2CID 110262147.
  10. ^ Chen, Yongpin P.; Chew, Weng Cho; Jiang, Lijun (October 2012). "A New Green's Function Formulation for Modeling Homogeneous Objects in Layered Medium". IEEE Transactions on Antennas and Propagation. 60 (10): 4766–4776. Bibcode:2012ITAP...60.4766C. doi:10.1109/TAP.2012.2207332. ISSN 0018-926X. S2CID 45823919.
  11. ^ Dai, Qi I.; Wu, Junwei; Gan, Hui; Liu, Qin S.; Chew, Weng Cho; Sha, Wei E. I. (July 2016). "Large-Scale Characteristic Mode Analysis With Fast Multipole Algorithms". IEEE Transactions on Antennas and Propagation. 64 (7): 2608–2616. Bibcode:2016ITAP...64.2608D. doi:10.1109/TAP.2016.2526083. ISSN 0018-926X.
  12. ^ Weng Chew (September 1982). "A broad-band annular-ring microstrip antenna". IEEE Transactions on Antennas and Propagation. 30 (5): 918–922. Bibcode:1982ITAP...30..918C. doi:10.1109/TAP.1982.1142913. ISSN 0096-1973.
  13. ^ Chew, W.C.; Liu, Q. (August 1988). "Resonance frequency of a rectangular microstrip patch". IEEE Transactions on Antennas and Propagation. 36 (8): 1045–1056. Bibcode:1988ITAP...36.1045C. doi:10.1109/8.7216.
  14. ^ Ali, S.; Weng Chew; Kong, J. (July 1982). "Vector Hankel transform analysis of annular-ring microstrip antenna". IEEE Transactions on Antennas and Propagation. 30 (4): 637–644. Bibcode:1982ITAP...30..637A. doi:10.1109/TAP.1982.1142870. ISSN 0096-1973.
  15. ^ Weng Chew; Jin Kong (January 1981). "Analysis of a circular microstrip disk antenna with a thick dielectric substrate". IEEE Transactions on Antennas and Propagation. 29 (1): 68–76. Bibcode:1981ITAP...29...68C. doi:10.1109/TAP.1981.1142534. ISSN 0096-1973.
  16. ^ Xiong, J.L.; Weng Cho Chew (July 2008). "Thin-stratified medium fast-multipole algorithm (TSMFMA) for Solving 2.5D microstrip structures". 2008 IEEE Antennas and Propagation Society International Symposium. IEEE. pp. 1–4. doi:10.1109/aps.2008.4620025. hdl:10722/63923. ISBN 9781424420414. S2CID 38433159.
  17. ^ Song, J. M.; Chew, W. C. (1995). "Multilevel fast-multipole algorithm for solving combined field integral equations of electromagnetic scattering". Microwave and Optical Technology Letters. 10 (1): 14–19. doi:10.1002/mop.4650100107. ISSN 1098-2760.
  18. ^ Lu, Cai-Cheng; Chew, Weng Cho (July 1994). "A multilevel algorithm for solving a boundary integral equation of wave scattering". Microwave and Optical Technology Letters. 7 (10): 466–470. doi:10.1002/mop.4650071013.
  19. ^ Chew, W.C.; Lu, C.-C. (July 1993). "The use of Huygens' equivalence principle for solving the volume integral equation of scattering". IEEE Transactions on Antennas and Propagation. 41 (7): 897–904. Bibcode:1993ITAP...41..897C. doi:10.1109/8.237620.
  20. ^ Warnick, Karl F; Chew, Weng Cho (January 2001). "Numerical simulation methods for rough surface scattering". Waves in Random Media. 11 (1): R1–R30. doi:10.1088/0959-7174/11/1/201. ISSN 0959-7174. S2CID 120505671.
  21. ^ Sheng, X.Q.; Jin, J.-M.; Song, J.; Chew, W.C.; Lu, C.-C. (November 1998). "Solution of combined-field integral equation using multilevel fast multipole algorithm for scattering by homogeneous bodies". IEEE Transactions on Antennas and Propagation. 46 (11): 1718–1726. Bibcode:1998ITAP...46.1718S. doi:10.1109/8.736628.
  22. ^ Weng Cho Chew, Jian-Ming Jin, Eric Michielssen, Jiming Song (2001). Fast and efficient algorithms in computational electromagnetics. Boston: Artech House. ISBN 1580531520. OCLC 46693947.{{cite book}}: CS1 maint: multiple names: authors list (link)
  23. ^ Chew, Weng Cho; Weedon, William H. (September 1994). "A 3D perfectly matched medium from modified maxwell's equations with stretched coordinates". Microwave and Optical Technology Letters. 7 (13): 599–604. Bibcode:1994MiOTL...7..599C. doi:10.1002/mop.4650071304.
  24. ^ Teixeira, F.L.; Chew, W.C. (1997). "Perfectly matched layer in cylindrical coordinates". IEEE Antennas and Propagation Society International Symposium 1997. Digest. Vol. 3. Montreal, Que., Canada: IEEE. pp. 1908–1911. doi:10.1109/APS.1997.631652. ISBN 9780780341784. S2CID 38308228.
  25. ^ Chew, W.C.; Liu, Q.H. (December 1996). "Perfectly Matched Layers for Elastodynamics: A New Absorbing Boundary Condition". Journal of Computational Acoustics. 04 (4): 341–359. doi:10.1142/S0218396X96000118. ISSN 0218-396X.
  26. ^ Chew, W. C.; Jin, J. M.; Michielssen, E. (1997-08-20). "Complex coordinate stretching as a generalized absorbing boundary condition". Microwave and Optical Technology Letters. 15 (6): 363–369. doi:10.1002/(SICI)1098-2760(19970820)15:6<363::AID-MOP8>3.0.CO;2-C. ISSN 0895-2477.
  27. ^ Chew, W.C.; Wang, Y.M. (June 1990). "Reconstruction of two-dimensional permittivity distribution using the distorted Born iterative method". IEEE Transactions on Medical Imaging. 9 (2): 218–225. doi:10.1109/42.56334. PMID 18222767.
  28. ^ Moghaddam, M.; Chew, W.C. (January 1992). "Nonlinear two-dimensional velocity profile inversion using time domain data". IEEE Transactions on Geoscience and Remote Sensing. 30 (1): 147–156. Bibcode:1992ITGRS..30..147M. doi:10.1109/36.124225.
  29. ^ Chen, Fu-Chiarng; Chew, Weng Cho (1998-06-08). "Experimental verification of super resolution in nonlinear inverse scattering". Applied Physics Letters. 72 (23): 3080–3082. Bibcode:1998ApPhL..72.3080C. doi:10.1063/1.121547. ISSN 0003-6951.
  30. ^ Chew, W.C.; Lin, J.H. (December 1995). "A frequency-hopping approach for microwave imaging of large inhomogeneous bodies". IEEE Microwave and Guided Wave Letters. 5 (12): 439–441. doi:10.1109/75.481854.
  31. ^ Hesford, Andrew J.; Chew, Weng C. (August 2010). "Fast inverse scattering solutions using the distorted Born iterative method and the multilevel fast multipole algorithm". The Journal of the Acoustical Society of America. 128 (2): 679–690. Bibcode:2010ASAJ..128..679H. doi:10.1121/1.3458856. ISSN 0001-4966. PMC 2933255. PMID 20707438.
  32. ^ Hidayetoglu, Mert; Chunxia Yang; Lang Wang; Podkowa, Anthony; Oelze, Michael; Wen-Mei Hwu; Chew, Weng Cho (August 2016). "Parallel solutions of inverse multiple scattering problems with born-type fast solvers". 2016 Progress in Electromagnetic Research Symposium (PIERS). Shanghai, China: IEEE. pp. 916–920. doi:10.1109/PIERS.2016.7734520. ISBN 9781509060931. S2CID 594558.
  33. ^ Song, J.; Cai-Cheng Lu; Weng Cho Chew (October 1997). "Multilevel fast multipole algorithm for electromagnetic scattering by large complex objects". IEEE Transactions on Antennas and Propagation. 45 (10): 1488–1493. Bibcode:1997ITAP...45.1488S. doi:10.1109/8.633855.
  34. ^ Yang, Ming-Lin; Wu, Bi-Yi; Gao, Hong-Wei; Sheng, Xin-Qing (2019). "A Ternary Parallelization Approach of MLFMA for Solving Electromagnetic Scattering Problems with Over 10 Billion Unknowns". IEEE Transactions on Antennas and Propagation. 67 (11): 6965–6978. Bibcode:2019ITAP...67.6965Y. doi:10.1109/TAP.2019.2927660. ISSN 0018-926X. S2CID 199120481.
  35. ^ Ergül, Özgür; Gürel, Levent (2014-05-23). The Multilevel Fast Multipole Algorithm (MLFMA) for Solving Large-Scale Computational Electromagnetics Problems: Ergul/The Multilevel Fast Multipole Algorithm (MLFMA) for Solving Large-Scale Computational Electromagnetics Problems. Chichester, UK: John Wiley & Sons, Ltd. doi:10.1002/9781118844977. ISBN 9781118844977.
  36. ^ Taboada, Jose Manuel; Araujo, Marta Gomez; Bertolo, Jose Manuel; Landesa, Luis; Obelleiro, Fernando; Rodriguez, Jose Luis (2010). "Mlfma-FFT Parallel Algorithm for the Solution of Large-Scale Problems in Electromagnetics". Progress in Electromagnetics Research. 105: 15–30. doi:10.2528/PIER10041603. ISSN 1559-8985.
  37. ^ Michiels, Bart; Fostier, Jan; Bogaert, Ignace; De Zutter, Daniel (February 2015). "Full-Wave Simulations of Electromagnetic Scattering Problems With Billions of Unknowns". IEEE Transactions on Antennas and Propagation. 63 (2): 796–799. Bibcode:2015ITAP...63..796M. doi:10.1109/TAP.2014.2380438. hdl:1854/LU-6939867. ISSN 0018-926X. S2CID 46187552.
  38. ^ Chew, W. C.; Liu, A. Y.; Salazar-Lazaro, C.; Sha, W. E. I. (2016). "Quantum Electromagnetics: A New Look—Part I". IEEE Journal on Multiscale and Multiphysics Computational Techniques. 1: 73–84. Bibcode:2016IJMMC...1...73C. doi:10.1109/JMMCT.2016.2617018. ISSN 2379-8815. S2CID 16835660.
  39. ^ Chew, W. C.; Liu, A. Y.; Salazar-Lazaro, C.; Sha, W. E. I. (2016). "Quantum Electromagnetics: A New Look—Part II". IEEE Journal on Multiscale and Multiphysics Computational Techniques. 1: 85–97. Bibcode:2016IJMMC...1...85C. doi:10.1109/JMMCT.2016.2614800. ISSN 2379-8815.
  40. ^ Shu Chen; Weng Cho Chew (August 2016). "Discrete electromagnetic theory with exterior calculus". 2016 Progress in Electromagnetic Research Symposium (PIERS). Shanghai, China: IEEE. pp. 896–897. doi:10.1109/PIERS.2016.7734512. ISBN 9781509060931. S2CID 33945327.
  41. ^ Chen, Shu C.; Chew, Weng Cho (December 2017). "Numerical electromagnetic frequency domain analysis with discrete exterior calculus". Journal of Computational Physics. 350: 668–689. arXiv:1704.05145. Bibcode:2017JCoPh.350..668C. doi:10.1016/j.jcp.2017.08.068. S2CID 33152296.
  42. ^ Sha, Wei E. I.; Liu, Aiyin Y.; Chew, Weng Cho (2018). "Dissipative Quantum Electromagnetics". IEEE Journal on Multiscale and Multiphysics Computational Techniques. 3: 198–213. arXiv:1704.02448. Bibcode:2018IJMMC...3..198S. doi:10.1109/JMMCT.2018.2881691. ISSN 2379-8815. S2CID 51680987.
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