Google Scholar Publication List
Selected Publications
Book
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Robert Paknys, "Applied Frequency-Domain Electromagnetics."
Wiley/IEEE Press 2016. website and errata
Laboratories
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I created the microwave labs ELEC 453/6391 in 1997-2002 and
the antenna labs ELEC 456/6341 in 2009-2017.
Journal Papers
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[1] A. Foroozesh, R. Paknys, D. R. Jackson, and J.-J. Laurin, "Beam
focusing using backward-radiating waves on conformal leaky-wave
antennas based on a metal strip grating," IEEE Trans. Antennas
Propagat. Vol. 63 No. 11 pp. 4667-4677, Nov 2015.
[2] A. K. Ozturk, R. Paknys and C. W. Trueman, "Vertex diffracted edge
waves on a perfectly conducting plane angular sector," IEEE
Trans. Antennas Propagat. Vol. 59 No. 3 pp. 888-897, Mar. 2011.
[3] A. K. Ozturk, R. Paknys and C. W. Trueman, "First-order singular
basis functions for corner diffraction analysis using the method
of moments," IEEE Trans. Antennas Propagat. Vol. 57 No. 10
pp. 3160-3168, Oct. 2009.
[4] A. Parsa and R. Paknys, "Interior Green's function for a thick and
finite dielectric slab," IEEE Trans. Antennas Propagat. Vol. 55
No. 12 pp. 3504-3514, Dec. 2007.
[5] M. J. Neve and R. Paknys, "A technique for approximating the
location of surface and leaky-wave poles for a lossy dielectric
slab," IEEE Trans. Antennas Propagat. Vol. 54 No. 1 pp. 115-120,
Jan. 2006.
[6] R. Paknys and D. R. Jackson, "The relation between creeping waves,
leaky waves, and surface waves," IEEE Trans. Antennas
Propagat. Vol. 53 No. 3, pp. 898-907, Mar. 2005.
[7] R. Paknys, "Reflection and transmission by reinforced concrete--
numerical and asymptotic analysis," IEEE Trans. Antennas Propagat.
Vol. 51 No. 10, pp. 2852-2861, Oct. 2003. (Corr., Feb. 2005.)
[8] R. Paknys, "Evaluation of Hankel functions with complex argument
and complex order," IEEE Trans. Antennas Propagat., Vol.AP-40,
No.5, pp.569-578, May 1992.
[9] R. Paknys, "The near field of a wire grid model," IEEE
Trans. Antennas Propagat., Vol.AP-39, No.7, pp.994-999, July 1991.
[10] R. Paknys and N. Wang, "Creeping wave propagation constants and
modal impedance for a dielectric coated cylinder," IEEE
Trans. Antennas Propagat., Vol.AP-34, No.5, pp.674-680, May 1986.
Conference Papers
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[1] B. A. Khan and R. Paknys, "Surface impedance boundary conditions
under transmit and receive conditions," Progress in
Electromagnetics Research Studies PIERS, Rome, Italy, June 17--20
2019.
[2] P. Deschenes, M. Coulombe, R. Paknys, and A. R. Pinchuk,
"Near-field coupling method for a complex navy ship environment,"
2012 IEEE Int'l. Symposium on Electromagnetic Compatibility,
Pittsburgh PA, Aug. 5-12, 2012, pp. 256-260.
[3] P. Kazerani and R. Paknys, "Analysis of monopole antennas mounted
on the fuselage of carbon-fibre composite aircraft," AERO 11 58th
Aeronautics Conference and AGM, Canadian Aeronautics and Space
Institute, Montreal QC, Apr. 26-28, 2011.
Technical Report
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[1] R. Paknys, C. W. Trueman, A. K. Ozturk, and A. Altintas, "High
Frequency RCS Prediction for Vehicles Treated with RAM," Concordia
University EMC Laboratory, Final Tech. Rept. prepared for Defence
R&D Canada- Ottawa (DRDC-O), Contract Report CR 2008-001, Contract
Number W7707-010074/001/HAL, 280 pp. Jan. 2008.
In this report we developed the computer code "Ray Tracing with
Physical Optics" (RPO). It uses large-element physical optics and
multi-bounce ray tracing to calculate electromagnetic radiation
patterns and scattering for complex-shaped platforms such as ships.
Ph.D. Dissertation
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R. Paknys, "High Frequency Surface Fields Excited by a Line Source on
a Dielectric Coated Cylinder," Ohio State University Dept. of
Electrical Engineering, March 1985.
M.Sc. Thesis
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R. Paknys, "A Generalized Method for Determining Radiation Patterns of
Aperture Antennas and Its Application to Reflector Antennas," Ohio
State University Dept. of Electrical Engineering, June 1982.
(Available: NASA Technical Report https://ntrs.nasa.gov).
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