This work reports on top-down nanoelectromechanical resonators, which are among the smallest resonators listed in the literature. To overcome the fact that their electromechanical transduction is intrinsically very challenging due to their very high frequency (100 MHz) and ultimate size (each resonator is a 1.2 μ m long, 100 nm wide, 20 nm thick silicon beam with 100 nm long and 30 nm wide piezoresistive lateral nanowire gauges), they have been monolithically integrated with an advanced fully depleted SOI CMOS technology. By advantageously combining the unique benefits of nanomechanics and nanoelectronics, this hybrid NEMS-CMOS device paves the way for novel breakthrough applications, such as NEMS-based mass spectrometry or hybrid NEMS/CMOS logic, which cannot be fully implemented without this association.
Julien Arcamone, Cécilia Dupré, Grégory Arndt, Eric Colinet, Sébastien Hentz, Eric Ollier and Laurent Duraffourg
Click for full article
Julien Arcamone, Cécilia Dupré, Grégory Arndt, Eric Colinet, Sébastien Hentz, Eric Ollier and Laurent Duraffourg
Click for full article
No comments:
Post a Comment