A flower-shaped structure only a few micrometers in size made of a nickel-iron alloy can concentrate and locally enhance ...

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 ...

Scientists know well how conventional materials conduct heat. However, things are not as straightforward under extreme ...

The ability to conduct heat is one of the most fundamental properties of matter, crucial for engineering applications. Scientists know well how conventional materials, such as metals and insulators, ...

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 ...

With a new measurement imminent, the Courier explores the experimental results and theoretical calculations used to predict ...

Room-temperature magnetic and electronic traits make phosphorene nanoribbons promising for next-gen, energy-efficient nanoelectronics.

In an ultra-cold, high-magnetic-field setting, ZrTe5 defies expectations by showing quantum heat oscillations. Researchers ...

Tiny flower-shaped magnetic structures boost local magnetic fields, enhancing sensor performance and enabling new ...

Scientists at Princeton University have made a groundbreaking discovery in quantum materials, revealing that electron energy ...

Indian American physicist predicted a new class of exotic particles which could be integral to high-performance electronics ...