Glass might seem to be an ordinary material we encounter every day, but the physics at play inside are actually...
Numerous memory types for computing devices have emerged in recent years, aiming to overcome the limitations imposed by traditional random...
Liquid-like molecular dynamics explain solid-state battery material’s superionic transport abilities
Researchers at Duke University have uncovered the molecular inner workings of a material that could underpin next-generation rechargeable batteries. Unlike...
Depth degradation is a problem biologists know all too well: The deeper you look into a sample, the fuzzier the...
Quantum physics is a very diverse field: it describes particle collisions shortly after the Big Bang as well as electrons...
Computer scientists at the University of California San Diego have developed a method for generating highly realistic computer-generated images of...
Nuclear fission is the most reliable source of antineutrinos, but they are difficult to characterize. A recent study suggests how...
Detecting infrared light is critical in an enormous range of technologies, from remote controls to autofocus systems to self-driving cars...
A research team has experimentally calculated the Jones polynomial based on the quantum simulation of braided Majorana zero modes. The...
by D. D. Carvalho, Y. Bertho, A. Seguin, E. M. Franklin, and B. D. Texier In bird colonies, schools of...
Heat management at the nanoscale has long been a cornerstone of advanced technological applications, ranging from high-performance electronics to quantum...
by Nathan S. Babcock Have you ever thought that light might hold a key to life’s mysteries? One hundred years...
