Quantum Breakthrough in High-Temperature Superconductivity
Scientists have made a discovery that may help to unlock the microscopic mystery of high-temperature superconductivity The paper published in Nature could help address the…
Scientists have made a discovery that may help to unlock the microscopic mystery of high-temperature superconductivity The paper published in Nature could help address the…
Quantum bits can be described more precisely with the help of newly discovered harmonics as a team of 30 researchers reports in Nature Physics. Physicists…
Janus nanosheets bring unprecedented control to preparation of nanoscrolls. Researchers from Tokyo Metropolitan University have come up with a new way of rolling atomically thin…
Researchers have conclusively observed the many-body pairing pseudogap in unitary Fermi gases, advancing our understanding of superconductivity mechanisms. A research team led by Professors Jianwei…
UTe2, an unconventional superconductor studied by international researchers, exhibits unique superconductivity under high magnetic fields, offering new technological potential. At low enough temperatures, certain metals…
A breakthrough discovery of a new superconducting material sets a new record for transition metal sulfide superconductors with a transition temperature of 11.6 K and…
New research challenges the conventional wisdom regarding superconducting quantum transitions. Princeton physicists have discovered an abrupt change in quantum behavior while experimenting with a three-atom-thin…
Advancements in attosecond soft-X-ray spectroscopy by ICFO researchers have transformed material analysis, particularly in studying light-matter interactions and many-body dynamics, with promising implications for future…
Recent research has unlocked key aspects of high-critical-temperature superconductors, identifying their unique ‘strange metal’ state and a crucial quantum critical point. This discovery, resulting from…
New research has disproved the superconductivity claims of LK-99, showing that its properties result from the structural transition of Cu2S impurities, not superconductivity. In a…
Researchers have integrated laser-induced superconductivity on a chip, marking a breakthrough in optoelectronics. Scientists at the Max Planck Institute for the Structure and Dynamics of…
The results open the door to exploring superconductivity and other exotic electronic states in three-dimensional materials. Electrons move through a conducting material like commuters at…
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…
Researchers have introduced a pioneering breakthrough in the world of nanomotors – the DNA origami nanoturbine. This nanoscale device could represent a paradigm shift, harnessing…
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…
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…
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…
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…