MIT scientists harness chaotic laser for faster brain imaging

Researchers at East China Normal University have developed a new imaging technique that captures ultrafast events in trillionths of a second, revealing both brightness and structural changes in a single shot. The method, called compressed spectral-temporal coherent modulation femtosecond imaging (CST-CMFI), tracks phenomena like plasma formation and electron movement. Yunhua Yao, the team leader, described it as a major advance for physics, chemistry, and materials science.

3 Mwezi wa tatu, 2026 Imeripotiwa na AI

Scientists at the University of Basel and ETH Zurich have reversed the polarity of a specialized ferromagnet with a focused laser beam, without heating the material. This achievement, detailed in Nature, combines electron interactions, topology, and dynamical control in a single experiment. The method hints at future light-based electronic circuits on chips.

Researchers have discovered that psychedelic substances suppress visual processing in the brain, leading to hallucinations by drawing on memory fragments. The study, conducted using advanced imaging on mice, shows how slow brain waves shift perception toward internal recall. These findings could inform therapies for depression and anxiety.

18 Mwezi wa tatu, 2026 Imeripotiwa na AI

Researchers have found that repeated head impacts in contact sports damage the blood-brain barrier, potentially driving chronic traumatic encephalopathy (CTE) in former athletes. The discovery, based on MRI scans of retired footballers, rugby players and boxers, suggests new diagnostic and preventive approaches. Drugs to strengthen the barrier may help avert the condition.