Title :
Silicon-based reconfigurable antennas-concepts, analysis, implementation, and feasibility
Author :
Fathy, Aly E. ; Rosen, Arye ; Owen, Henry S. ; McGinty, Francis ; McGee, David J. ; Taylor, Gordon C. ; Amantea, Robert ; Swain, P.K. ; Perlow, Stewart M. ; ElSherbiny, Moniem
Author_Institution :
Sarnoff Corp., Princeton, NJ, USA
fDate :
6/1/2003 12:00:00 AM
Abstract :
We report on an innovative reconfigurable antenna concept with significant practical relevance based on the dynamic definition of metal-like conductive plasma channels in high-resistivity silicon that are activated by the injection of DC current. The plasma channels are precisely formed and addressed using current high-resolution silicon fabrication technology. These dynamically defined plasma-reconfigurable antennas enable frequency hopping, beam shaping, and steering without the complexity of RF feed structures. This concept shows promise for delivering the performance and capabilities of a phased array, but at a reduced cost. However, challenges such as p-i-n biasing circuit complexity and their nonlinearities, as well as antenna efficiency, would still require further investigations.
Keywords :
adaptive antenna arrays; antenna radiation patterns; beam steering; dipole antenna arrays; elemental semiconductors; monopole antenna arrays; p-i-n diodes; semiconductor plasma; silicon; DC current injection; SPIN devices; Si; Si-based reconfigurable antennas; beam shaping; beam steering; frequency hopping; high-resistivity silicon; holographic antennas; metal-like conductive plasma channels; p-i-n biasing circuit complexity; plasma-reconfigurable antennas; Antenna feeds; Complexity theory; Costs; Fabrication; PIN photodiodes; Particle beams; Phased arrays; Plasmas; Radio frequency; Silicon;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2003.812559
