Chirality—the property of an object that is distinct from its mirror image—has long captivated scientists across biology, chemistry, and physics....
Polarization, along with intensity, wavelength, and phase, is a fundamental property of light. It enhances contrast and resolution in imaging...
Recently, a group of researchers discovered a novel way to achieve spin-valve effects using kagome quantum magnets. “This approach uses...
In the future, quantum computers could rapidly simulate new materials or help scientists develop faster machine‐learning models, opening the door...
An atomic clock research team from the National Time Service Center of the Chinese Academy of Sciences has proposed and...
Researchers at Rice University have developed a new machine learning (ML) algorithm that excels at interpreting the “light signatures” (optical...
The beloved Italian pasta cacio e pepe is perhaps best known for two things: being delicious and being frustratingly difficult...
Researchers have demonstrated a new quantum sensing technique that widely surpasses conventional methods, potentially accelerating advances in fields ranging from...
A team of Rice University researchers has developed a new way to control light interactions using a specially engineered structure...
There are a seemingly endless number of quantum states that describe quantum matter and the strange phenomena that emerge when...
An international research team led by Mayukh Kumar Ray, Mingxuan Fu, and Satoru Nakatsuji from the University of Tokyo, along...
Concentrating light in a volume as small as the wavelength itself is a challenge that is crucial for numerous applications....
