As part of the Quantum Science Center headquartered at ORNL, Robert Moore probes the interface between a topological insulator and a superconductor with spin- and angle-resolved photoemission ...

A cluster of recent experiments and theoretical studies has produced the strongest evidence yet that spin-triplet superconductivity can be reliably generated and controlled at material interfaces, a ...

Today's most powerful computers hit a wall when tackling certain problems, from designing new drugs to cracking encryption ...

Summary: Majorana qubits may offer a path toward fault-tolerant quantum computing by leveraging topological protection against decoherence. A new Nature study demonstrates single-shot parity readout ...

Seoul National University College of Engineering announced that a research team led by Prof. Sunkyu Yu and Prof. Namkyoo Park ...

Scientists have finally figured out how to read ultra-secure Majorana qubits—bringing robust quantum computing a big step closer. “This is a crucial advance,” says Ramón Aguado, a CSIC researcher at ...

Tuning electron interactions in iron telluride selenide controls superconducting and topological phases, offering a pathway to more stable quantum computing.

A group of scientists, including Sergey Frolov, professor of physics at the University of Pittsburgh, and co-authors from Minnesota and Grenoble have undertaken several replication studies centered ...

[content-module:CompanyOverview|NASDAQ:MSFT] In December 2024, Alphabet (NASDAQ: GOOG), Google's parent company, announced its new quantum computing chip. This started a frenzy of trading in pure-play ...

Scientists have developed a new way to read the hidden states of Majorana qubits, which store information in paired quantum ...