Because future microwave, wireless communication systems, computer chip designs and sensor systems, it will require miniature fabrication processes in the order of nano meters or less as well as the marriage of various material technologies to produce composites consisting of many different materials.
Because future microwave, wireless communication systems, computer chip designs and sensor systems, it will require miniature fabrication processes in the order of nano meters or less as well as the marriage of various material technologies to produce composites consisting of many different materials.
Carmine Vittoria's career spans 50-55 years in academia and goernment research establishments. His approach to scientific endeavors has been to search for the common denominator or thread that links the various sciences to make some logical sense. The fields of study include physics, electrical engineering, ceramics, metallurgy, surface or interfaces, nano-composite films. His interest in science ranges from the physics of particle-particle interaction at the atomic scale to nondestructive evaluation of bridge structures, from EPR of a blood cell to electronic damage in the presence of gamma rays, from design of computer chips to radar systems, from microscopic interfacial structures to thin film composites. The diversity and seriousness of his work and his commitment to science are evident in the ~500 publications in peer-reviewed journals, ~ 25 patents, and three other scientific books. Dr. Vittoria is also the author of a nonscientific books on soccer for children; memoirs: "Bitter Chicory to Sweet espresso", "Once Upon a Hill" and "Hidden in Plain Sight". and He is a life fellow of the IEEE (1990) and an APS fellow (1985). He has received research awards and special patent awards from government research laboratories. Dr. Vittoria was appointed to a professorship position in 1985 in the Electrical Engineering Department at Northeastern University, and was awarded the distinguished professorship position in 2001 and a research award in 2007 by the College of Engineering. In addition, he was cited for an outstanding teacher award by the special need students at Northeastern University. His teaching assignments included electromagnetics, antenna theory, microwave networks, wave propagation in magneto-dielectrics, magnetism and superconductivity, electronic materials, microelectronic circuit designs, circuit theory, electrical motors, and semiconductor devices.
Inhaltsangabe
1. Review of Maxwell Equations and Units 2. Classical Principles of Magnetism 3. Introduction to Magnetism 4. Deposition of Ferrite Films at the Atomic Scale by ATLAD Technique 5. Free Magnetic Energy 6. Phenomenological Theory 7. Electrical Properties of Magneto-Dielectric Films 8. Kramers-Kronig Equations 9. Electromagnetic Wave Propagation in Anisotropic Magneto-Dielectric Media 10. ATLAD Deposition of Magnetoelectric Hexaferrite Films and Their Properties 11. Spin Surface Boundary Conditions 12. Matrix Representation of Wave Propegation
1. Review of Maxwell Equations and Units 2. Classical Principles of Magnetism 3. Introduction to Magnetism 4. Deposition of Ferrite Films at the Atomic Scale by ATLAD Technique 5. Free Magnetic Energy 6. Phenomenological Theory 7. Electrical Properties of Magneto-Dielectric Films 8. Kramers-Kronig Equations 9. Electromagnetic Wave Propagation in Anisotropic Magneto-Dielectric Media 10. ATLAD Deposition of Magnetoelectric Hexaferrite Films and Their Properties 11. Spin Surface Boundary Conditions 12. Matrix Representation of Wave Propegation
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