Quantum Geometry – The Newest “Magic” Twist in Superconductivity
A new mechanism that gives rise to superconductivity in a material where the speed of electrons is almost zero has been discovered by scientists at...
View ArticleChinese Breakthrough in High-Pressure Superconducting Magnetic Detection
A collaborative research team has developed a research platform to study superconducting magnetic detection and magnetic phase transitions of hydrides under high pressure. This is...
View Article“Huge” Distortions – Researchers Create a New Type of Quantum Material
Formed by an electronic struggle between the atomic layers of the material, this ‘stunning’ herringbone pattern could result in unique features that researchers are just...
View ArticleThe Superconductive Connection: Crystal Stripes and Quantum Electron Behavior
A hidden pattern of electrons could provide clues to exotic quantum behavior. Hidden stripes in a crystal could help scientists understand the mysterious behavior of...
View ArticleA New Age of Superconductivity Research – Scientists Discover “Goldilocks”...
TU Wien has performed calculations that suggest the use of the precious metal palladium as a “Goldilocks” material for creating superconductors that remain superconductive even...
View ArticleMysterious Class of “Strange Metals” Yields Quantum Secrets
Physicists at Rutgers University have offered theoretical perspectives on an experiment involving a “strange metal,” which could play a crucial role in the development of...
View ArticleFrom Theory to Reality: A Groundbreaking Manifestation of Interdependent...
New findings enable experimental studies to control and further develop the multiscale phenomena of complex interdependent materials. Bar-Ilan University researchers Havlin and Frydman have...
View ArticleQuantum Entanglement Shatters Einstein’s Local Causality: The Future of...
ETH Zurich researchers have succeeded in demonstrating that quantum mechanical objects that are far apart can be much more strongly correlated with each other than...
View ArticleNext-Gen Superconducting Diode: Enhancing AI Performance and Quantum...
A team of researchers has developed a high-efficiency superconducting diode with potential applications in scaling up quantum computing and enhancing AI systems. This device can...
View ArticleMIT’s Nematic Leap: Physicists Discover a New Switch for Superconductivity
MIT researchers have found a new mechanism by which the superconductor iron selenide transitions into a superconducting state. Unlike other iron-based superconductors, iron selenide’s transition...
View ArticleQuantum Electronic Vortices in Superconductors: Unprecedented Circulatory...
Researchers have redefined our understanding of quantum vortices in superconductors, showing that they can contain fractional quantum flux, contrary to previous theories. This breakthrough discovery,...
View ArticleSuperconductivity Breakthrough: First Direct Visualization of a Zero-Field...
Tunneling spectroscopy uncovers the clearest proof yet that this exotic superconducting state of matter exists without a magnetic field in an iron-based superconductor. Researchers discovered...
View ArticleA Peek Into the Quantum Realm: MIT Physicists Generate the First Snapshots of...
The images shed light on how electrons form superconducting pairs that glide through materials without friction. When your laptop or smartphone heats up, it’s due...
View ArticleMIT Develops Superconducting Device To Radically Cut Energy Use in Computing
Ultra-small “switch” could be easily scaled. A team of scientists from MIT, along with their colleagues, have developed a simple superconducting device that could transfer...
View ArticleSuperconductor Unleashes Rare Physics: A Journey into Uranium Ditelluride...
Scientists have made a significant contribution to understanding superconductivity by observing unusual charge waves within uranium ditelluride crystals. ‘A place for everything and everything in...
View ArticleCreating New States of Matter – Researchers Invent Two New Types of...
Electronics of the future hinge on the discovery of unique materials. Sometimes, however, the naturally occurring topology of atoms makes it difficult for new physical...
View ArticleMIT’s New Fluxonium Qubit Circuit Enables Quantum Operations With...
The advance brings quantum error correction a step closer to reality. In the future, quantum computers may be able to solve problems that are far...
View ArticleTwisting Physics: MIT’s Quasicrystal Superconductivity Breakthrough
A new flexible platform could produce enigmatic materials and lead to new studies of exotic phenomena. In research that could jump-start interest into an enigmatic...
View ArticleDNA Origami Nanoturbine: Pioneering the Nanomotor Revolution
Researchers have introduced a pioneering breakthrough in the world of nanomotors – the DNA origami nanoturbine. This nanoscale device could represent a paradigm shift, harnessing...
View ArticleRevolutionizing Technology: Superconductors Master Spin Waves on Chips
Physicists use superconductors to control spin waves on a chip, paving the way for energy-efficient tech and quantum computer advancements. Quantum physicists at Delft University...
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