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📢 Physicists Top Long‑Standing High‑Temperature Superconductor Record—All at Room‑Temperature Pressure!

🔗 https://news.google.com/rss/articles/CBMiiAFBVV95cUxPQ3RwenNlZ2VIM2hUSlR0UHl1ejZPRXFLTXA4MERJTFk4YjRWNlFoaGs3REVhTWFyZDFheXZFM2hjSUV4ZGo2dzlGSjdDcFNYSXp4N1llenp2ZTktaXFxRjE2SG8wZmwzeTkyQzFaZ1lVMlpQbEFPWWNLRXdSbkxGVDNVS1oyN3lp?oc=5

#Physicists #Long‑standing #High‑temperature #Superconductor #GlobalFeed #News #EN

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The ECT* in Trento, Italy, hosts a doctoral training programme on emerging #superconductor technologies for #quantum sensing and computing this summer. Deadline for application is 17 April.
#physics #summerSchool
https://indico.ectstar.eu/event/281/page/596-how-to-apply
Iron telluride (FeTe), a compound historically categorized as an ordinary magnetic metal, is intrinsically a #superconductor capable of conducting electricity without energy loss. This superconducting state is achieved by eliminating hidden excess iron atoms that previously disrupted the material's structural purity.
#Physics #MaterialScience #QuantumScience #sflorg
https://www.sflorg.com/2026/04/phy04022601.html
Superconductivity switched on in material once thought only magnetic

Superconductivity — the ability of a material to conduct electricity without any energy loss to heat

Scientists may have found the holy grail of quantum computing

Scientists may have spotted a long-sought triplet superconductor — a material that can transmit both electricity and electron spin with zero resistance. That ability could dramatically stabilize quantum computers while slashing their energy use. Early experiments suggest the alloy NbRe behaves unlike any conventional superconductor. If verified, it could become a cornerstone of next-generation quantum and spintronic technology.

ScienceDaily