Rutgers and other physicists have discovered an exotic form of electrons that spin like planets and could lead to advances in lighting, solar cells, lasers and electronic displays.
It's called a "chiral surface exciton," and it consists of particles and anti-particles bound together and swirling around each other on the surface of solids, according to a study in the Proceedings of the National Academy of Sciences.
Chiral refers to entities, like your right and left hands, that match but are asymmetrical and can't be superimposed on their mirror image.
Excitons form when intense light shines on solids, kicking negatively charged electrons out of their spots and leaving behind positively charged "holes," according to lead author Hsiang-Hsi (Sean) Kung, a graduate student in Physics Professor Girsh Blumberg's Rutgers Laser Spectroscopy Lab at Rutgers University-New Brunswick.
The electrons and holes resemble rapidly spinning tops. The electrons eventually "spiral" towards the holes, annihilating each other in less than a trillionth of a second while emitting a kind of light called "photoluminescence." This finding has applications for devices such as solar cells, lasers and TV and other displays.
The scientists discovered chiral excitons on the surface of a crystal known as bismuth selenide, which could be mass-produced and used in coatings and other materials in electronics at room temperature.
"Bismuth selenide is a fascinating compound that belongs to a family of quantum materials called 'topological insulators,'" said senior author Blumberg, a professor in the Department of Physics and Astronomy in the School of Arts and Sciences. "They have several channels on the surface that are highly efficient in conducting electricity."
The dynamics of chiral excitons are not yet clear and the scientists want to use ultra-fast imaging to further study them. Chiral surface excitons may be found on other materials as well.
Materials provided by Rutgers University. Note: Content may be edited for style and length.
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