Quantum computers need special materials called topological superconductors—but they’ve been notoriously difficult to create.

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 ...

Scientists have developed a new way to read the hidden states of Majorana qubits, which store information in paired quantum modes that resist noise. The results confirm their protected nature and show ...

Even the fastest supercomputers struggle with certain complex tasks, such as discovering new medicines or breaking advanced encryption. Quantum ...

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 ...

Seoul National University College of Engineering announced that a research team led by Prof. Sunkyu Yu and Prof. Namkyoo Park of the Department of Electrical and Computer Engineering, in collaboration ...

[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 ...

A study published in Nature Physics Jan. 14, co-led by Rice University’s Qimiao Si, brings together quantum criticality, where electrons fluctuate between different phases, and electronic topology, ...

A research team has successfully implemented a programmable spinor lattice on a photonic integrated circuit (PIC). This platform enables the realization of non-Abelian physics, in which the outcome of ...

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 ...