Superconducting Magnets of the Future in the Making at CERN
Over the past thirty years, the exploration of the infinitely small has gone hand-in-hand with advances in superconducting magnets. The increasingly powerful hadron colliders, from…
Over the past thirty years, the exploration of the infinitely small has gone hand-in-hand with advances in superconducting magnets. The increasingly powerful hadron colliders, from…
Electronic properties of condensed matter are often determined by an intricate competition between kinetic energy that aims to overlap and delocalize electronic wave functions across…
Ultracold atoms trapped in appropriately prepared optical traps can arrange themselves in surprisingly complex, hitherto unobserved structures, according to scientists from the Institute of Nuclear…
A precision measurement of helium and hydrogen mirror isotopes reveals new questions in understanding of nuclear structure. It’s not often in nuclear physics that you…
Exotic states called Kohn anomalies could offer clues to why some materials have the electronic properties they do. An exotic physical phenomenon known as a…
XENON1T data could be either evidence of new particle physics or unexpected contaminant. The XENON1T detector, tucked into an Italian mountainside to search for signs…
After his PhD thesis invalidates an old assumption, Norman Cao wonders what’s next. “What are some challenges in controlling plasma and what are your solutions?…
Combined theoretical and experimental work unveils a novel mechanism through which criticality emerges in quasiperiodic structures — a finding that provides unique insight into the…
Coronavirus could be transmitted through a long-lasting cloud of virus-containing aerosol droplets ejected from a flushing toilet. Researchers used a computer simulation to show how…
The invention of chirped pulse amplification technique by Strickland and Mourou in 1985 has boosted the peak power of ultrashort laser pulses to an unprecedented…
An element that could hold the key to the long-standing mystery around why there is much more matter than antimatter in our Universe has been…
Theoretical physicist William Detmold unlocks the mysteries of quarks, gluons, and their “strong interactions” at the subatomic level. How do protons fuse to power the…
Two prominent X-ray emission lines of highly charged iron have puzzled astrophysicists for decades: their measured and calculated brightness ratios always disagree. This hinders good…
Scientists remain perplexed by the activity, with some 40 papers so far giving wildly different answers. A new research paper co-authored by a Virginia Tech…
New experimental technique with Goethe University’s reaction microscope allows ‘X-ray’ of individual molecules. For more than 200 years, we have been using X-rays to look…
An Oregon State University environmental engineering professor has solved a decades-old mystery regarding the behavior of fluids, a field of study with widespread medical, industrial,…
In experiments at the National Ignition Facility, a SLAC-led team found new details about how supernovas boost charged particles to nearly the speed of light….
Oxygen is highly reactive. It accumulates on many surfaces and determines their chemical behavior. At the Vienna University of Technology, scientists study the interaction between…