Title :
Miniaturized MEMS-based GSG probes for microwave characterization
Author :
Marzouk, Jaouad ; Arscott, Steve ; Haddadi, Kamel ; Lasri, Tuami ; Dambrine, Gilles
Author_Institution :
Inst. of Electron., Microelectron. & Nanotechnol., Univ. Lille 1, Villeneuve-d´Ascq, France
Abstract :
Miniaturized high-frequency ground-signal-ground (GSG) probes with micrometric dimensions are investigated for the microwave characterization of next generation nanoelectronic devices. A design guide including electromechanical and electromagnetic modeling of novel cantilever-based probes designed in silicon-on-insulator (SOI) based MEMS technology is proposed. The mechanical stress distribution and the deflection of the cantilever-based probe are studied in an effort to optimize the contact resistance between the probe and the device under test and maintaining low insertion loss. The insertion loss of the probes is estimated lower than 0.5 dB at 30 GHz and the predicted contact resistance is <;1 O. The present study helps to illuminate the roadmap for on-chip nanocharacterization using miniaturized HF probes.
Keywords :
cantilevers; contact resistance; elemental semiconductors; microsensors; microwave detectors; nanosensors; probes; silicon; silicon-on-insulator; SOI; Si; cantilever-based probe; contact resistance; electromagnetic modeling; electromechanical modeling; frequency 30 GHz; ground-signal-ground probe; insertion loss; mechanical stress distribution; micrometric dimension; microwave characterization; miniaturized HF probe; miniaturized MEMS-based GSG probe; miniaturized high-frequency ground-signal-ground probe; next generation nanoelectronic device; on-chip nanocharacterization; silicon-on-insulator; Contact resistance; Force; Nickel; Probes; Silicon; Stress; GSG probes; MEMS; Microwave measurement; SOI technology; deflection; modeling; nanocharacterization;
Conference_Titel :
Microwave Conference (EuMC), 2014 44th European
Conference_Location :
Rome
DOI :
10.1109/EuMC.2014.6986644
