Researchers reveal that plasmons in boron-doped diamonds are driving advances in electronics, optics and quantum computing.

Researchers have discovered a method to induce chirality in non-chiral materials using terahertz light. This groundbreaking ...

emphasizing chirality’s role in crystal growth. Synchrotron microbeam X-ray diffraction analysis (both small- and wide-angle) provides insights into lamellar orientation and structure. The microbeam X ...

In an antiferro-chiral crystal, equal amounts of left- and right-handed substructures exist within each unit cell, making the overall structure non-chiral ... lift this balance in the non-chiral ...

The Pimax Crystal Light has some of the most stunning VR visuals of any headset we've tested thanks to some beautiful QLED displays. In many ways, it's a dying breed of PC VR headset that doesn't ...

Two spiraling structures come together to create the Solomon R. Guggenheim Museum, Frank Lloyd Wright’s midcentury masterpiece on Manhattan’s Upper East Side. Wright chose the circular shape ...

An antiferro-chiral crystal is composed ... Institut for the Structure and Dynamics of Matter, used terahertz light to lift this balance in the non-chiral material boron phosphate (BPO 4), in ...

Researchers at the Max Planck Institute for the Structure and Dynamics of Matter (MPSD) and the University of Oxford have shown that terahertz light can induce chirality in a non-chiral crystal ...

“Earth becomes a musical instrument.” Decades ago, measurements of such seismic waves identified two strange continent-sized structures, one beneath the Pacific Ocean and one beneath Afric ...

They found that the unique structure of this material enhanced the reactivity of boron and nitrogen sites when exposed to hydrogen. Specifically, hydrogen molecules interacted with both the boron ...