Scientists Observe “Quasiparticles” in Classical Systems for the First Time
Since the advent of quantum mechanics, the field of physics has been divided into two distinct areas: classical physics and quantum physics. Classical physics deals…
Since the advent of quantum mechanics, the field of physics has been divided into two distinct areas: classical physics and quantum physics. Classical physics deals…
Scientists identify quantum geometry as crucial to process. Researchers have produced new evidence of how graphene, when twisted to a precise angle, can become a…
Intercalation of indium into nanostructures promises applications to nanocircuitry. Researchers from Tokyo Metropolitan University have successfully threaded atoms of indium metal in between individual fibers…
Applying a quick electric pulse completely flips the material’s electronic properties, opening a route to ultrafast, brain-inspired, superconducting electronics. MIT physicists have revealed a new…
Using light to create transient phases in quantum materials is a novel method for engineering new properties like superconductivity or nanoscale topological defects, however, visualizing…
Computers that can use quantum mechanics’ “spooky” properties to solve problems quicker than existing technology may seem appealing, but they must first overcome a major…
For the first time, physicists have experimentally demonstrated that there is a negative correlation between the two spins of an entangled pair of electrons from…
It may be possible to develop superconductors that operate at room temperature with further knowledge of the relationship between spin liquids and superconductivity, which would…
Less than two years ago the science world was shocked by the discovery of a material capable of room-temperature superconductivity. Now, a team of University…
New technique helps researchers understand unconventional superconductors. One of nature’s most fascinating quantum phenomena is superconductivity. When a superconducting material is cooled below its critical…
Electronic nematicity, thought to be an ingredient in high-temperature superconductivity, is primarily spin driven in FeSe finds a study in Nature Physics. Researchers from PSI’s…
The new facility, LCLS-II, will soon sharpen our view of how nature works on ultrasmall, ultrafast scales, impacting everything from quantum devices to clean energy….
Scientists discover that triggering superconductivity with a flash of light involves the same fundamental physics that are at work in the more stable states needed…
Superconductors are materials that conduct electrical current with almost no electrical resistance at all. This property makes them particularly appealing for a variety of applications,…
Study leverages one of the most powerful magnets on Earth to probe a new model of a mysterious metal. A research team has uncovered new…
What if you could travel from New York to Los Angeles in just under seven hours without boarding a plane? It could be possible on…
An MIT team incorporates AI to facilitate the detection of an intriguing materials phenomenon that can lead to electronics without energy dissipation. Superconductors have long…
Magnetic interactions could point to quantum devices. From MRI machines to computer hard disk storage, magnetism has played a role in pivotal discoveries that reshape…