Professor
jarem@ece.uah.edu
(256) 824-6463
 
  


John Jarem

 

Research Interests

Dr. Jarem's primary research interests are electromagnetics, optics, Antenna Theory, and Microwave Theory.

Degrees

  • B.S., Electrical Engineering, Drexel University, June 1971
  • M.S., Electrical Engineering, Drexel University, June 1972
  • Ph.D., Electrical Engineering, Drexel Univ., Philadelphia, PA, June 1975.

Recent Publications

J. M. Jarem, “Resonant Frequency Analysis of an Inhomogeneous, Anisotropic, Parallelogram Cavity using a Novel Set of Mixed-Partial Derivative Boundary Condition Expansion Functions,” Proceedings of  the 2007 International  Conference on Scientific Computing  CSC'07, pgs. 100-105, June 25, 2007. 

J. M. Jarem, “Review of Rigorous Coupled Wave Analysis (RCWA) and Green’s Function Integral Equation Approaches to Electromagnetic Scattering from Isotropic or Anisotropic  Material Objects: Proposed Application to Metamaterials,” Conference on Metamaterials and Nonlinear Materials,  Sparkman Center Redstone Arsenal, Huntsville AL. , April 4-5, 2007

J. M. Jarem, "A Rapidly-convergent, mixed-partial derivative boundary condition Green's function for an anisotropic half-space: Perfect conductor case," Progress In Electromagnetics Research, PIER 67, pp. 39-112, 2007.
http://ceta.mit.edu/PIER/pier67/03.06072804.Jarem.pdf
(Peer reviewed)

Susan C. Hill and J. M. Jarem, "Scattering of Multi-Layer Concentric Elliptical Cylinders Excited by Sing Mode Source," Progress In Electromagnetics Research, PIER 55, pgs. 209-226, Dec. 2005 . The work is a peer-review

Susan C. Hill and J. M. Jarem, "Single-Mode, Electromagnetic Excitation of Concentric, Mismatched-Material, Elliptical Cylinders," Progress In Electromagnetics Research, submitted March 31, 2004.

J. M. Jarem, "Rigorous Coupled Wave Analysis of Bipolar Cylindrical Systems: Scattering from Inhomogeneous Dielectric Material, Eccentric, Composite Circular Cylinders," Progress In Electromagnetics Research, PIER 43, pages 181-237, published Fall 2003. (peer-reviewed)
PIER ONLINE (http://ceta.mit.edu/PIER/pier43/pier43.html)

"Numerical convergence and validation of the Hankel-Bessel and Mathieu rigorous coupled wave analysis algorithms for radially and Azimuthally -inhomogeneous, elliptical, cylindrical systems," J. M. Jarem, Progress In Electromagnetics Research, PIER 36, 153-177 (2002).

"Rigorous coupled wave analysis of radially and azimuthally-inhomogeneous, elliptical, cylindrical systems," J. M. Jarem, Progress In Electromagnetics Research, PIER 34, pp 89-115 (2001).

"Rigorous coupled wave analysis of radially and azimuthally-inhomogeneous, elliptical, cylindrical systems," J. M. Jarem, Journal of Electromagnetic Waves and Applications 1367-1368, Vol. 15 No. 10, 2001. (Abstract and Summary of PIER 34,89-115 (2001).

"A Rigorous Coupled Wave Approach to Scattering from Cylindrical and Spherical Inhomogeneous Objects," J. M. Jarem, Invited Key Lecture (30 minutes) in the Conference: Complex Mediums II: Beyond Linear Isotropic Dielectrics, SPIE International Symposium on Optical Science and Technology, July 29-31, San Diego, CA (2001).

Computational Methods for Electromagnetic and Optical Systems, John M. Jarem and Partha P. Banerjee, Marcel-Dekker, July (2000).

"Convergence of Electromagnetic Field Components across Discontinuous Permittivity Profiles," P. P. Banerjee and J. M. Jarem, J. Opt. Soc. Amer. A, Vol. 17, No. 3, pp. 491-492, March (2000).

"Numerical Analyses of Optical Propagation and Interaction in Nonlinear Photorefractive Materials," P.P. Banerjee and J. M. Jarem, chapter in, Electromagnetic Fields in Unconventional Materials and Structures, (approximately 25 pages), John Wiley & and Sons (2000).

"BIOELECTROMAGNETICS: A Rigorous Coupled Wave Analysis of Cylindrical Biological Tissue," John M. Jarem and P. P. Banerjee, The 2000 International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences (METMBS'2000), Monte Carlo Resort, Las Vegas, Nevada, USA, June 26 - 29 (2000).