Researchers have uncovered how primate brains transform flat, 2D visual inputs into rich, 3D mental representations of ...

Researchers have demonstrated that by using argon plasma, metal atoms can be dispersed and guided to desired positions. This ...

Twisted materials—known as moiré structures—have revolutionized modern physics, emerging as today's "alchemy" by creating ...

The field of two-dimensional (2D) materials has seen substantial growth with emerging options such as MXenes, transition metal dichalcogenides (TMDs), black ...

Even the most powerful telescopes have not yet been able to see far enough back in time to witness events from the Big Bang.

Three-dimensional (3D) cancer models have emerged as pivotal tools in oncology research, offering a more accurate representation of tumor biology compared ...

We propose a two dimensional (2D) semi-analytical method to calculate the radiated power and Purcell factor of a quantum emitter (QE) embedded in a medium bounded between a nano-patterned structure ...

Heart sounds reflect the function of heart valves and are important for the diagnosis of heart-related diseases. Automated heart sound diagnosis plays an key role in the early detection of ...

Scientists at ETH Zurich have developed a powerful method to look deep inside single-atom catalysts—materials where every ...

This progress means that, for the first time, complicated astrophysical events like shocks and turbulence can be studied in a ...

An attosecond—or 0.000000000000000001 second—is no time at all for a person. That is not so for electrons, atoms and ...