Tiny magnetic "flowers" engineered by physicist Anna Palau are redefining how we manipulate magnetic fields. These ...

Scientists have developed a tiny flower-shaped structure that’s made of a nickel-iron alloy to concentrate and locally ...

Scientists at a German research lab have created an ultra-thin, flexible electronic skin (e-skin) that can detect and track ...

Helmholtz-Zentrum Dresden-Rossendorf researchers have developed an electronic skin that detects and tracks magnetic fields ...

A flower-shaped structure only a few micrometres in size made of a nickel-iron alloy can concentrate and locally enhance magnetic fields. The size of the effect can be controlled by varying the ...

Innovative inverted pyramid Hall-effect sensors offer improved accuracy and reduced crosstalk, paving the way for ...

Scientists in Spain have created tiny flower-shaped structures that can boost magnetic fields in a very small area. These ...

A team of researchers has developed a pioneering 3-axis Hall-effect magnetic sensor based on an inverted pyramid structure.

Imagine being able to control your smartphone underwater, or move through virtual worlds just by waving your hand—no wires, ...

Such a device can be used to increase the sensitivity of magnetic sensors, to reduce the energy required for creating local magnetic fields, but also, at the PEEM experimental station, to study ...