Books/Coursepacks

  1. J.L. Volakis (ed.), Antenna Engineering Handbook, McGraw-Hill; 4th edition, 2007 (ISBN-13: 978-0071475747), and 5th edition, 2019 (ISBN-13: 9781259644696)
  2. L. Volakis and K. Sertel, Integral Equation Methods for Electromagnetics, Scitech Publishing, 391pp, 2012.
  3. L. Volakis, C.C Chen and K. Fujimoto, Small Antennas: Miniaturization Techniques and Applications, 448pp, McGraw-Hill, 2010
  4. Zhou, J.L. Volakis, and C-C Chen, Polymer-Ceramic Composites for Conformal Multilayer Antenna/RF Systems, LAP Lambert Academic Publishing, 184pp, 2010
  5. Bayram and J.L. Volakis, Computational Methods for High Frequency Electromagnetic Interference, VDM-Publishing (Verlag), 2009.
  6. L. Volakis, Antenna Engineering Handbook, 1800pp comprehensive Handbook, McGraw-Hill; 4th edition, 2007.
  7. L. Volakis, K. Sertel and B. Usner, Frequency Domain Hybrid Finite Element Methods in Electromagnetics, Morgan & Claypool Publishing, 156pp, 2006.
  8. J.L.Volakis, A. Chatterjee and L. Kempel, Finite Element Methods for Electromagnetics, IEEE Press, New York (ISBN 0-7803-3425-6) and Oxford Univ Press, London (0-19-850479-9), 1998
  9. T.B.A.Senior and J.L.Volakis, Approximate Boundary Conditions in Electromagnetics, IET Press, New York and London, 1995
  10. L. Volakis, Introduction to Numerical Electromagnetics, a 350pp coursepack for the courses EECS 503 at the U. of Michigan and ECE 715 at Ohio State; was introduced in 1994, and is one of the very first comprehensive introductory numerical methods course to date.

Chapters and Articles in Edited Books

  1. Shubhendu Bhardwaj and John L. Volakis, “Numerical Simulations of Distributd Electromagnetic and Plasma-wave Effect Devices,” chapter in TeraHertz book edited by Patrick Fay, 2019.
  2. Chipengo, N. Nahar, J.L. Volakis, “Dispersion Engineering for Slow Wave Structure Design,” chapter in High Power Microwave Devices book edited by E. Schamiloglu, 2018.
  3. Zuboraj and J.L. Volakis, “Realization of Slow Wave Phenomena Using Coupled Transmission Lines and their Application to Antennas and Vacuum Electronics,” Chapter in book Broadband Metamaterials in Electromagnetics: Technology and Applications, ed. Douglas H. Werner, 2016.
  4. Z. Wang, J.L. Volakis and A. Kiourti, “Embroidered Antennas for Communication Systems,” Ch. 10 in Electronic Textiles: Smart Fabrics and Wearable Technology, Woodhead Publishing, ISBN: 978-0-08-100201-8, April 2015. pp. 201–237
  5. Dimitris Psychoudakis, Chi-Chih Chen, Gil-Young Lee and John L. Volakis, “An Epidermal Sensor Paradigm – Inner Layer Tissue Monitoring,” Ch. 18 in Handbook of Biomedical Telemetry, 2014.
  6. G. Mumcu, K. Sertel, and J.L. Volakis, “Metamaterial Antennas,” Ch. 6 in book Frontiers in Antennas, McGraw-Hill, ed. Frank Gross., 2011, pp. 203-236.
  7. R. Burkholder, R. Marhefka, and J.L. Volakis, “Analytical Ray Methods for Through-Wall Radar Imaging” Ch. 8 in book Through-The-Wall Radar Imaging, CRC press, ed. Moenes Amin, Dec. 2010, pp. pp. 269-306.
  8. R. Emrick and J.L Volakis, “Millimeter Wave and TeraHertz Antennas” Ch 23 (15pp) in the 4th ed. Antenna Engineering Handbook, ed. J.L. Volakis
  9. T. Eibert and J.L. Volakis, “Introduction and Fundamentals to Antennas,” Chapter 1 (30pp) in the 4th ed. Antenna Engineering Handbook, ed. J.L. Volakis.
  10. C.C. Chen and J.L. Volakis, “Printed Spiral Antennas“, Ch. 4 in book Printed Antennas for Wireless Communications, edited Rod Waterhouse, Wiley & Sons, 2007
  11. J.L. Volakis and T. Eibert, “Antenna Analysis Methods,” chapter in Encyclopedia of Telecommunications, ed. J. Proakis (2004)
  12. T. Eibert and J.L. Volakis, “Antennas, Radar and Mobile Communications”, Chapter in book edited by Sabatier, Wiley and Sons, 2001, pp. 384-406
  13. T. Eibert, K. Sertel, D. Filipovic and J.L. Volakis,”Finite Element-Fast Integral Methods for Antenna Analysis,” Chapter in book Applied Computational Electromagnetics State of the Art and Future Trends edited by N. Uzunoglu et.al. (pp. 183-197), Springer-Verlag, N.Y. 1998.
  14. L.A. Andersen and J.L. Volakis, “Hierachical Mixed-Order Tangential Vector Finite Elements for Triangular Elements,” Chapter in book Applied Computational Electromagnetics State of the Art and Future Trends edited by N. Uzunoglu et.al. (pp. 164-174), Springer-Verlag, N.Y. 1998.
  15. J.L. Volakis, “Two Dimensional Finite Element-Boundary Integral Method,” Chapter in book Applied Computational Electromagnetics State of the Art and Future Trends edited by N. Uzunoglu et.al. (pp. 175-182), Springer-Verlag, N.Y. 1998.
  16. L. Volakis, J.Gong and T. Ozdemir, “Large Hybrid Finite Elements for Electromagnetics,” Chapter in Computational Electromagnetics and its Applications, eds. Campbell et.al. (pp. 252-287), Kluwer Academic Publishers, 1997.
  17. J.L. Volakis, T.B.A. Senior, S.R. Legault, T. Ozdemir and M. Casciato,“ Artificial absorbers for truncating finite element meshes,” Chapter I, pp. 15-25, in Direct and Inverse Electromagnetic Scattering, eds. Serbest and Cloude, Addison Wesley Longman Ltd. (Pitman Research Series in Mathematics).
  18. J.L. Volakis, J. Gong and T. Ozdemir, “FEM Applications to Conformal Antennas,” in Finite Element Software for Microwave Engineering (eds. Itoh, Pelosi and Silvester), Wiley 1996.
  19. T.B.A. Senior and J.L. Volakis, “Approximate Boundary Conditions in Electromagnetics,” in Review of Radio Science, Ed. R.Stone, Oxford, pp. 205-234, 1996
  20. J.D. Collins and J.L. Volakis and J.M. Jin, “A Combined Finite Element-Boundary Integral Formulation for Solution via CGFFT of Two-Dimensional Scattering Problems,” in Finite Elements for Wave Electromagnetics:methods and techniques, pp. 272-278; eds. P. Silvester and G. Pelosi, IEEE Press: New York, 1994.
  21. J.M. Jin and J. L. Volakis, “A Hybrid Finite Element Method Scattering and Radiation From Microstrip Patch Antennas and Arrays Residing in a Cavity,” in Finite Elements for Wave Electromagnetics:methods and techniques, pp. 299-305; eds. P. Silvester and G. Pelosi, IEEE Press: New York, 1994.
  22. J.D. Collins, J.M. Jin and J.L. Volakis, “Eliminating Interior Cavity Resonances in Finite Element-Boundary Integral Methods for Scattering,” in Finite Elements for Wave Electromagnetics: methods and techniques, pp. 313-315; eds. P. Silvester and G. Pelosi, IEEE Press: New York, 1994.
  23. Chatterjee, J.M. Jin and J.L. Volakis, “A Finite Element Formulation with Absorbing Boundary Conditions for Three Dimensional Scattering,” in Finite Elements for Wave Electromagnetics: methods and techniques, pp. 485-490; eds. P. Silvester and G. Pelosi, IEEE Press: New York, 1994.
  24. J.L. Volakis and K. Barkeshli, “Applications of the Conjugate Gradient FFT method to Radiation and Scattering,” in Application of Iterative Methods to Electromagnetics and Signal Processing, ed. T. Sarkar, Elsevier Pub. Co., pp. 159-240, 1991.
  25. J.L. Volakis and T.B.A. Senior, “Application of a Class of Generalized Boundary Conditions to Scattering by a Metal-Backed Dielectric Half Plane,” in Radar Cross Section of Complex Objects, ed. W. R. Stone, IEEE Press: New York, 1990, pp. 419-427.
  26. H.H. Syed and J.L. Volakis, “Multiple Diffractions Among Polygonal Impedance Cylinders,” in Radar Cross Section of Complex Objects, ed. W.R. Stone, IEEE Press: New York, 1990, pp. 441-449.
  27. J.L. Volakis and M.A. Ricoy, “H-polarization Diffraction by a Thick Metal-Dielectric Join,” in Radar Cross Section of Complex Objects, IEEE Press: New York, 1990, pp. 481-491.
  28. M.A. Ricoy, S. Kilberg and J.L. Volakis, “Simple Integral Equations for Two-Dimensional Scattering with Further Reduction in Unknowns,” in Moment Methods in Antennas and Scattering, ed. R.C. Hansen, Artech-House: Norwood, MA., 1990.