Spiraling waves of neural activity appear and travel in the brain. Scientists hope to learn if these rotating waves on-the-move play a global role in sensing and interpreting internal and external ...

Researchers discover rotating spiral brain waves that travel across cortical networks, acting as a space-and-time clock for ...

Magnonic crystals are artificial periodic structures designed to control and manipulate the propagation of spin waves, also known as magnons. These crystals are the magnetic analogs of photonic ...

New ultrafast method for controlling magnetic materials might enable next-generation information processing technologies. This illustration shows that a pair of intense THz laser pulses drives spin ...

An international team led by the Max Born Institute has developed a new type of momentum microscopy to image magnons—the ...

Reservoir computing (RC) stacks a few benefits over other artificial neural networks, such as the reservoir that gives this technique its name. The reservoir functions mainly to nonlinearly transform ...

Acoustic frequency filters, which convert electrical signals into miniaturized sound waves, separate the different frequency bands for mobile communications, Wi-Fi, and GPS in smartphones. Physicists ...

We present the results of studies on the non-uniform frequency shift of spin wave spectrum in a two-dimensional magnonic crystal of cobalt/permalloy under the influence of external magnetic field ...

Five years on from the first discovery of gravitational waves, an international team of scientists, including from the ARC Centre of Excellence for Gravitational Wave Discovery (OzGrav), are ...

Researchers have developed a pioneering method to precisely manipulate ultrafast spin waves in antiferromagnetic materials using tailored light pulses. As demands for computing resources continue to ...