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Scientists working at CERN’s Large Hadron Collider may be seeing the strongest hints yet of physics beyond the Standard Model — the decades-old theory that explains the fundamental particles and forces of the universe。 By studying incredibly rare particle transformations called “penguin decays,” researchers found behavior that doesn’t fully match t
New studies suggest consciousness can't be judged solely by behavior, whether it's a chatbot discussing philosophy or a bee searching for nectar。 Researchers are increasingly focusing on the internal mechanisms of brains and computers, concluding that today's AI is likely not conscious while leaving open the possibility for both conscious insects a
A groundbreaking new connectome maps every neural connection in an adult fruit fly’s central nervous system, creating an unprecedented view of how the brain and body work together。 The findings suggest that complex behaviors emerge from distributed local circuits rather than a single central controller, offering new clues about intelligence, moveme
A newly identified group of amygdala neurons appears to play a central role in anxiety and social behavior。 Restoring normal activity in this tiny brain circuit reversed anxiety and social deficits in mice, revealing a promising new target for future treatments
Great apes appear to build friendships much like humans do。 By studying grooming behavior, researchers discovered that chimpanzees and bonobos form close inner circles along with wider networks of weaker social connections。 Chimpanzees focus on a few trusted partners and become more selective with age, while bonobos maintain a more egalitarian soci
Researchers found that social behavior begins in the brain before it becomes visible as movement。 In zebrafish, a coordinated pattern of activity spread across the brain several seconds before the animals approached another fish。 A higher brain region called the pallium played a key role, and fish with stronger neural signals were generally more so
Scientists have uncovered unexpected quantum complexity inside cobalt, a metal long thought to be fully understood。 Advanced measurements revealed a dense network of topological electronic states that remain robust at room temperature。 These states enable extremely fast electron behavior and can be switched or controlled using magnetism