Nanosciences and Nanotechnology

Biography

Mohammed Saleh Hussein Al Salameh is full professor- since 2004- in Electrical Engineering at the Jordan University of Science & Technology, and he was the Dean of Scientific Research at the American University of Madaba. He obtained his PhD degree with honors in Electronic Interference/Compatibility, University of Ottawa, Ottawa, Canada. He was a faculty member in the Hashemite University in Jordan, and he was senior researcher in the Royal Military College, Kingston, Canada. He also worked in the communications sector for 6 years. During his study in Ottawa, he was the President of Graduate Students' Association. Prof. Al Salameh is the author of many international refereed Journal papers as well as conference papers in addition to books. Prof. Al Salameh has supervised and graduated several PhD and MSc students. His research interests include electromagnetic compatibility EMI/EMC, bio-electromagnetics, minimization of human exposure to fields and radiations, EMP interaction, coupling and shielding, crosstalk, satellite communications, neural networks, optical fibers and integrated optical waveguides, unconventional microstrip circuits, dielectric resonator antennas (DRAs), radar sensing, printed circuit boards, VLSI interconnects, radio-wave propagation in various environments, and computer modeling for real-world problems. He is also developing numerical methods, such as the finite element method, finite difference method, and method of moments, for practical EMI/EMC applications. Dr. Al Salameh is an expert in the field of the health effects of electromagnetic energy

Research Interest

Al Salameh research interests include electromagnetic compatibility EMI/EMC, bio electromagnetics, minimization of human exposure to fields and radiations, EMP interaction, coupling and shielding, crosstalk, satellite communications, neural networks, optical fibers and integrated optical waveguides, unconventional microstrip circuits, dielectric resonator antennas (DRAs), radar sensing, printed circuit boards, VLSI interconnects, and computer modeling for real-world problems. He is also developing numerical methods, such as the finite element method, finite difference method, and method of moments, for practical EMI/EMC applications.