Mention the word “turbulence” and you might conjure up images of bumpy flights, stormy weather, and choppy ocean or river...
Preservation of the high-pressure states of materials at ambient conditions is a long-sought-after goal for fundamental research and practical applications....
The study of liquid droplets and their behavior upon impingement is of major importance in many fields, including agriculture, engineering,...
Faster computers, tap-proof communication, better car sensors—quantum technologies have the potential to revolutionize our lives just as the invention of...
Depending on the perspective one chooses, a theoretical calculation can describe observed physics more or less accurately. Back in 2015,...
Recent research proves that under certain conditions, quantum annealing computers can run algorithms—including the well-known Shor’s algorithm—more quickly than classical...
by Georg WeigeltGeorg Weigelt, Fraunhofer-Institut für Zuverlässigkeit und Mikrointegration IZM The vision of cars that drive or planes that fly...
At a time when astronomers around the world are reveling in new views of the distant cosmos, an experiment on...
In a series of experiments on lanthanum superhydride with impurities, researchers from Skoltech, Lebedev Physical Institute of RAS and their...
By using photons and electron spin qubits to control nuclear spins in a two-dimensional material, researchers at Purdue University have...
Scientists at Queen Mary University of London have made two discoveries about the behavior of “supercritical matter”—matter at the critical...
A new method for shaping matter into complex shapes, with the use of ‘twisted’ light, has been demonstrated in research...
