Abstract: We demonstrate a magnonic isolator based on a bilayer structure of Yttrium Iron Garnet (YIG) and Cobalt Iron Boron (CoFeB). The bilayer exhibits pronounced non-reciprocal spin-wave ...

A new way to create ultra-thin layers of metals makes it possible for scientists to study a new and unusual class of 2D ...

To address this issue, this study explores the mechanical characteristics of bilayer silicene doped with aluminum under various conditions. By employing molecular dynamics simulations, we investigate ...

Amplified spontaneous emission is a physical phenomenon that entails the amplification of the light spontaneously emitted by ...

How a person's brain grows and makes connections can determine intelligence as well as susceptibility to disorders such as ...

In a gate defined quantum dot in Bernal bilayer graphene, a combination of spin and valley protection diminishes spin relaxation drastically and yields a lifetime of 38 seconds. A transistor made ...

Materials science is an interdisciplinary field concerned with the understanding and application of the properties of matter. Materials scientists study the connections between the underlying ...

Superconductivity Limitations Electricity has been one of the most transformative technologies in history, allowing for the transmission of a very useful form of energy over long distances. But every ...

A novel atomic-level manufacturing method, vdW squeezing, allows for the creation of 2D metals at the angstrom thickness ...

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

D printing of tubular biocomposites reveals moisture-sensitive actuators, offering insights into programmable materials for environmental responsiveness.

In a new publication in Nature Materials, an international team of researchers has developed groundbreaking artificial chains of the iconic "olympicene" molecules to realize the antiferromagnetic ...