The role of electrons and their negative charge in electric current is well established. Electrons also exhibit other ...

A new technique involving terahertz light has enabled the creation of chiral states in non-chiral materials, offering ...

Chiral nuclear physics is a fascinating area of study that explores the unique rotational structures of certain atomic nuclei. This field focuses on understanding how the arrangement of protons ...

Electrons have a hidden feature — spin — that could revolutionize technology. Magnets can control it, but researchers are now ...

Chirality refers to objects that cannot be superimposed onto their mirror images through any combination of rotations or ...

The creation of chiral materials from semiconductors at Cornell opens new avenues for optical sensors and displays, enhancing ...

Ferroelectrics at the nanoscale exhibit a wealth of polar and sometimes swirling (chiral) electromagnetic textures that not ...

Jan. 27, 2025 — Researchers have pioneered an innovative method using helioseismology to measure the solar radiative opacity under extreme conditions. This groundbreaking work not only reveals ...

The role of electrons and their negative charge in electric current is well established. Electrons also exhibit other intrinsic properties that are ...

Scientists have developed a novel technique to transform symmetrical semiconductor particles into intricately twisted, spiral ...