This novel finding regarding the nonreciprocal diffraction of acoustic waves could open doors for next-generation communication devices.

Key cells in the brain, neurons, form networks by exchanging signals, enabling the brain to learn and adapt at incredible ...

Thousands of marine species from microscopic zooplankton to the largest cetaceans rely on sound for survival and many have ...

Artificially engineered biological processes, such as perception systems, remain an elusive target for organic electronics experts due to the reliance of human senses on an adaptive network of sensory ...

Brain-CA Technologies, a pioneer in AI innovation, has achieved a breakthrough in its revolutionary processor architecture based on cellular automata. In a pivotal demonstration of the system's ...

In this valuable manuscript, authors ablate cerebellar oligodendrocytes during postnatal development and show that synchrony of calcium transients in Purkinje neurons and behaviours are affected even ...

A novel biomarker signature combining PAF and CME predicts chronic pain risk, linking brain activity to individual pain ...

Todd Braver (left) and ShiNung Ching combine their expertise in brain science and systems engineering to gain insights into ...

But what if, instead of collecting all possible data from a sensor, we could be more selective, collecting just enough data to accurately identify whatever we’re looking for? Th ...

Yet, signal transmission is a vital functions for a neural code in ensuring communication among highly specialized brain regions. Feedforward networks with convergent or divergent connections ...

This important study assessed the effects of food intake on sharp wave-ripples in the hippocampus of mice during subsequent sleep. Solid evidence supports the conclusion that sharp wave-ripples are ...