New research shows that the superior colliculus, a primitive brain region, can independently interpret visual information.

Electricity doesn’t just flow freely in every direction—it needs control. That control comes from a tiny but powerful component: the diode. In this video, you’ll learn how diodes work, why they allow ...

Inside nearly every electronic device is a simple coil of wire doing a powerful job—it’s called an inductor. Though small and ...

Quantinuum has unveiled a third-generation quantum computer that could be easier to scale up than rival approaches.

The brain does not need its sophisticated cortex to interpret the visual world. A new study published in PLOS Biology ...

Wiring a rocker switch isn’t complicated once you understand the logic behind it. Every connection serves a purpose, and when ...

BOSTON (CN) — The University of Maine violated the Constitution when it backed out of a deal to sell one of its buildings to ...

Over the past decade, neurotechnology – the science of connecting technology directly with the brain – has grown at an astonishing pace. This field is developing devices that can monitor or even ...

Researchers use freezing technology to find how micro-sized particles cause defects in the chip-making process and design better methods to prevent them.

The Society for Neuroscience (SfN) will honor seven early career researchers whose awards will be presented during Neuroscience 2025, SfN's annual meeting.

Unravelling how neural circuits generate complex behaviours remains one of the most compelling challenges in neuroscience. This endeavor requires tools that ...

The study shows that communication between the entorhinal cortex and the hippocampus’s CA3 region helps mice form stable maps of places.