Terahertz radiation (THz), electromagnetic radiation with frequencies ranging between 0.1 and 10 THz, could be leveraged to ...

Semimetals promise more efficient conductivity, outperforming copper in energy use Copper’s limitations drive the search for semimetals like niobium phosphide Niobium phosphide conducts ...

In an ultra-cold, high-magnetic-field setting, ZrTe5 defies expectations by showing quantum heat oscillations. Researchers found that phonons, normally dominant in semimetals, behave more like ...

Topological materials are revolutionizing semiconductor manufacturing, offering enhanced conductivity and efficiency for next-generation electronic devices.

This finding challenges the widely held belief that magnetic quantum oscillations should not be detectable in the heat transport of semimetals.

Semimetals can be viewed as a kind of extreme limit of a semiconductor with zero ‘energy gap’, right at the threshold between insulator and metal. This extreme case remains exceedingly rare in real ...

Physicists developed a method using hydrogen cations to control electronic properties in magnetic Weyl semimetals, enabling advanced quantum technologies.

We design sub-wavelength passive non-reciprocal optical devices using recently discovered magnetic Weyl semimetals. These passive bulk topological materials do not require any external magnetic field ...

Most importantly, these semimetals do not add any unwanted series resistance across the current conduction path in the diode. Guided by these experimental observations, we propose that these ...

Reduction of Metal/Carbon Nano-Tubes Interface Contact Resistance by Floating Catalyst Growing Method and Semimetals Abstract: In this work, we investigate the contact resistance between carbon ...