Quantum Computer, Quantum Parallelism, and Quantum Electromagnetics

By Weng Cho Chew

Electrical and Computer Engineering, Purdue University, West Lafayette, IN

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Bio

Weng Cho Chew W.C. Chew received all his degrees from MIT. His research interests is in wave and field physics, specializing in fast algorithms in computational electromagnetics in the last 20 years. After graduating from MIT in 1980, he worked at Schlumberger-Doll Research. In 1985, he joined U Illinois Urbana-Champaign, was the director of the Electromagnetics Lab at UIUC from 1995-2007. During 2000-2005, he was the Founder Professor at UIUC, 2005- 2009, the Y.T. Lo Chair Professor, and since 2013, the Fisher Distinguished Professor. During 2007-2011, he served as the Dean of Engineering at The University of Hong Kong. He has authored and co-authored three books, over 400 journal papers, and over 500 conference papers. He is a fellow of various societies, and an ISI highly cited author. In 2008, he received the CT Tai Distinguished Educator Award from IEEE AP-S, in 2013, elected to the National Academy of Engineering and in 2015, ACES Computational Electromagnetics Award.

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Purdue Quantum Science and Engineering Institute

Publications

Recent Papers Related to Quantum Technologies

  • D.-Y. Na and W. C. Chew, “Classical and Quantum Electromagnetic Interferences: What Is The Difference?” PIER Journal, Vol. 168, 1-13, 2020.
  • T. Xia, P. Atkins, W.E.I. Sha, and W. C. Chew “Casimir Force: Vacuum Fluctuation, Zero-Point Energy, and Computational Electromagnetics,” IEEE Antennas and Propagation Magazine, in press.
  • W. C. Chew, D.-Y. Na, T. E. Roth, C. J. Ryu, and E. Kudeki, “Quantum Maxwell's Equations Made Simple,” IEEE Antennas and Propagation Magazine, scheduled for Feb. 2020.
  • W. C. Chew, A. Y. Liu, C. Salazar-Lazaro, D.-Y. Na, and W.E.I. Sha, “Hamilton Equations, Commutator, and Energy Conservation,” Quantum Reports, vol. 1, pp. 295-303, 2019.
  • D.-Y. Na and W. C. Chew, “Quantum Electromagnetic Finite-Difference Time Domain Solver,” Quantum Reports, vol. 2, pp. 253-265, 2020.
  • D.-Y. Na, J. Zhu, W. C. Chew, and F. L. Teixeira. "Quantum information preserving computational electromagnetics." Physical Review A 102, no. 1 (2020): 013711.
  • W. C. Chew, A.Y. Liu, C. Salazar-Lazaro, W.E.I. Sha, "Quantum electromagnetics: A new look—Parts I & II." IEEE Journal on Multiscale and Multiphysics Computational Techniques 1 (2016): 85-97.
  • W. E. I. Sha, A. Y. Liu, and W. C. Chew, Dissipative quantum electromagnetics, J. Multiscale and Multiphys. Comput. Techn. 3, 198 (2018).
  • P.R. Atkins, W.C. Chew, M.K. Li, L.E. Sun, Z.H. Ma, and L.J. Jiang. "Casimir force for complex objects using domain decomposition techniques." Progress In Electromagnetics Research 149 (2014): 275-280.
  • P. R. Atkins, Q. I. Dai, W.E.I. Sha, and W. C. Chew, "Casimir Force for Arbitrary Objects Using the Argument Principle and Boundary Element Methods," Progress In Electromagnetics Research, vol. 142, pp. 615-624, Sep. 2013.
  • W. C. Chew, “Quantum mechanics made simple: Lecture notes UIUC,” http://wcchew.ece.illinois.edu/chew/course/QMAll20161206.pdf, 2016.

Cite this work

Researchers should cite this work as follows:

  • Weng Cho Chew (2021), "Quantum Computer, Quantum Parallelism, and Quantum Electromagnetics," https://nanohub.org/resources/34731.

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Tags

  1. Bloch sphere
  2. Casimir force. joespicks
  3. computational electromagnetics
  4. finite difference time domain (FDTD)
  5. Maxwell's equations
  6. quantum computing
  7. quantum FDTD
  8. quantum Fourier transform
  9. quantum radar
  10. quantum science and information
  11. quantum sensing
  12. sensors/sensing
  13. single photon source
  14. spin state