A new study reveals how brain circuits between the entorhinal cortex and hippocampus stabilize memories during learning.

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

From ex-soldiers-turned-AI engineers to mechanics re-learning motorsport, the people behind A2RL prove “autonomous” doesn’t ...

Researchers exploring risky decision-making in rats found that a specific reward-related neural circuit influences impulsivity and risk-taking in complex ways that depend on timing and biological sex.

Newly decoded brain circuits make memories more stable as part of learning, according to a study led by NYU Langone Health ...

The opening brief in a first-of-its-kind appeal of an AI copyright infringement case was recently filed, framing the issues that could result in ...

A Columbus-area school district had previously banned students from using biological pronouns when referring to transgender ...

New research reveals brain circuits follow daily schedules for memory formation, with specific hours offering advantages for ...

Our brains do not react in a fixed, mechanical way like electronic circuits. Even if we see the same scene every day on our ...

This weekend marks the return of a motor race consisting entirely of AI-driven single-seaters for 20 laps of Yas Marina.

Getting the family to unplug feels like trying to herd cats. Specifically, cats that are glued to tiny, glowing rectangles of ...