For the first time, scientists have demonstrated that negative refraction can be achieved using atomic arrays - without the ...

Sea turtles are capable of creating GPS-like magnetic maps to guide them back to foraging grounds, and they do a little dance ...

Sea turtles have long mystified researchers by returning to beaches where they were hatched, magnetic signals may be the key, ...

Scientists have found a way to achieve negative refraction—where light bends the "wrong" way—using carefully arranged atomic arrays instead of engineered metamaterials. This breakthrough has enormous ...

In the search for elusive particles called neutrinos, researchers are stringing thousands of detectors in the depths of the ...

Three and a half kilometres beneath the Mediterranean Sea, around 80km off the coast of Sicily, lies half of a very unusual telescope called KM3NeT ...

Researchers have developed a novel experimental platform to measure the electric fields of light trapped between two mirrors ...

One major category of the next generation of energy-efficient microelectronic devices and information processing technologies ...

Loggerhead turtles “dance” when exposed to food-associated magnetic fields, and their magnetic map may help them return to specific areas after long migrations.

Discover how sea turtles navigate the ocean using their internal GPS and learn about their magnetic field perception.

A new study from researchers at the University of North Carolina at Chapel Hill provides the first empirical evidence that ...