Superconductivity Regimes in CsV3Sb5
This is a news story, published by Phys Org, that relates primarily to Princeton University news.
physics news
For more physics news, you can click here:
more physics newsPhys Org news
For more news from Phys Org, you can click here:
more news from Phys OrgAbout the Otherweb
Otherweb, Inc is a public benefit corporation, dedicated to improving the quality of news people consume. We are non-partisan, junk-free, and ad-free. We use artificial intelligence (AI) to remove junk from your news feed, and allow you to select the best science news, business news, entertainment news, and much more. If you like physics news, you might also like this article about
Kagome superconductors. We are dedicated to bringing you the highest-quality news, junk-free and ad-free, about your favorite topics. Please come every day to read the latest other superconductors news, superconductors news, physics news, and other high-quality news about any topic that interests you. We are working hard to create the best news aggregator on the web, and to put you in control of your news feed - whether you choose to read the latest news through our website, our news app, or our daily newsletter - all free!
SuperconductivityPhys Org
•Science
Science
Physicists uncover two superconducting regimes in a Kagome lattice superconductor

92% Informative
Researchers at Princeton University , the National High Magnetic Field Laboratory , Beijing Institute of Technology and the University of Zurich recently carried out a study aimed at better understanding the superconductivity observed in CsVSb.
Their paper, published in Nature Physics , identifies two distinct superconducting regimes in this material, which were linked to different transport and thermodynamic properties.
Kagome superconductors like CsVSb belong to this broad class, building on decades of research on cuprates.
Hossain: "Who knows what groundbreaking superconductor in this category will be found next? We are always on the lookout because these materials often reveal unexpected quantum states".