Researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) and Technical University of ...

The measured transmission diagram shows a -30 dB attenuation level, which is in good agreement with numerical predictions. The proposed design opens up new perspectives for the development of ...

This paper presents a neuromechanical logic gate using Radio Frequency MEMS (RF MEMS) oscillators which are implemented as neurons of Hopfield network constituting an OR logic gate. Auto-correlative ...

Explore how MEMS technology is transforming automotive safety and comfort through advanced sensing capabilities.

Accurate vacuum sensing is vital in controlling environments where minute changes in pressure can make or break entire processes. Traditional Pirani sensors offer broad range but fall short in ...

In a groundbreaking study, researchers present the first experimental exploration of nonlinear distortion in silicon-based PT-symmetric resonators operating in a broken phase. They pinpoint critical ...

Advances in technology to support AI and edge computing will likely drive a shift away from quartz timing toward silicon MEMS and precision timing.

Microelectromechanical systems (MEMS) sensors have become indispensable in a wide array of technologies—from autonomous vehicles and wearable medical monitors to industrial automation systems.