Spintronics Breakthrough: Unlocking the Power of Radial Vortices
A team at HZB has investigated a new, simple method at BESSY II that can be used to create stable radial magnetic vortices in magnetic…
A team at HZB has investigated a new, simple method at BESSY II that can be used to create stable radial magnetic vortices in magnetic…
A new fusion of materials, each with special electrical properties, has all the components required for a unique type of superconductivity that could provide the…
The “spin-nematic phase,” a magnetic analog of liquid crystal, has been observed for the first time in a quantum spin system. Liquid crystal represents a…
Material has potential applications in superconducting circuits for the next generation of industrial electronics. Researchers used the Advanced Photon Source to verify the rare characteristics…
Unconventional Superconductor CeRh2As2: A Quantum Superstar The research conducted by Elena Hassinger, an expert in low-temperature physics working at ct.qmat—Complexity and Topology in Quantum Matter…
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…
Researchers from Cornell University have identified a new state of matter in candidate topological superconductors, a discovery that may have far-reaching implications for both condensed…
Recent research led by Aavishkar Patel from the Flatiron Institute has uncovered a mechanism that sheds light on the peculiar behavior of strange metals, one…
Researchers published a new theoretical framework. Physicists have pinpointed a mechanism responsible for the creation of oscillating superconductivity, termed pair-density waves. The findings, which shed…
In a ground-breaking experiment, researchers from the University of Groningen collaborated with their peers from Nijmegen and Twente universities in the Netherlands, and the Harbin…
For the very first time, researchers at ISTA entangled microwave and optical photons. Quantum computing holds the potential to tackle complex issues in fields like…
Researchers decode the chemical profile of tantalum surface oxides to enhance understanding of loss mechanisms and to boost the performance of qubits. Whether it’s baking…
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…
Scientists have uncovered a method to convert quantum information between various quantum technologies, which holds significant impliciations for quantum computing, communication, and networking. The study,…
Physicists have created a novel type of analog quantum computer capable of addressing challenging physics problems that the most powerful digital supercomputers cannot solve. A…
Enhancing accessibility to the quantum properties of macroscopic objects. Through optomechanical experiments, scientists aim to delve into the boundaries of the quantum realm and lay…
‘Twisted’ layers of 2D materials produce photonic topological transition at ‘magic’ rotation angles. Monash researchers are part of an international collaboration applying ‘twistronics’ concepts (the…
A 2017 report of the discovery of a particular kind of Majorana fermion — the chiral Majorana fermion, referred to as the “angel particle” —…