After two years of basic research on Fractal Electrodynamics, the FractalComs consortium presents the conclusions of the FractalComs Project [1]. They state the performance limits (fundamental and technological) of pre-fractal shaped miniature devices compared with the conventional ones. Many miniature antennas and devices have been designed, analyzed and/or measured, being the most outstanding the two-arm square spiral antenna and the Hilbert superconductor resonators for miniature filters.
Conclusions of the FractalComs Project: Exploring the limits of Fractal Electrodynamics for the future telecommunication technologies / J. M., Rius; J. M., Gonzalez Arbesu; J., Romeu; Á., Cardama; A., Heldring; E., Ubeda; J. R., Mosig; E., Cabot; R., Gomez; A., Rubio; M., Fernandez; Giona, Massimiliano; Burghignoli, Paolo; G., Bugeda; M., Riera; J., Parron. - 4:(2004), pp. 3465-3468. (Intervento presentato al convegno IEEE Antennas-and-Propagation-Society International Symposium tenutosi a Monterey, CA nel JUN 20-26, 2004) [10.1109/aps.2004.1330091].
Conclusions of the FractalComs Project: Exploring the limits of Fractal Electrodynamics for the future telecommunication technologies
GIONA, Massimiliano;BURGHIGNOLI, Paolo;
2004
Abstract
After two years of basic research on Fractal Electrodynamics, the FractalComs consortium presents the conclusions of the FractalComs Project [1]. They state the performance limits (fundamental and technological) of pre-fractal shaped miniature devices compared with the conventional ones. Many miniature antennas and devices have been designed, analyzed and/or measured, being the most outstanding the two-arm square spiral antenna and the Hilbert superconductor resonators for miniature filters.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.