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 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 ...
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 ...
Today's most powerful computers hit a wall when tackling certain problems, from designing new drugs to cracking encryption ...
Seoul National University College of Engineering announced that a research team led by Prof. Sunkyu Yu and Prof. Namkyoo Park ...
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Majorana 1: Can It Cement Microsoft's Place in Quantum Computing?
[content-module:CompanyOverview|NASDAQ:MSFT] In December 2024, Alphabet (NASDAQ: GOOG), Google's parent company, announced ...
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Scientists manage to read information stored in Majorana qubits using new technique
Researchers have managed to read information stored in Majorana qubits, which are a form ...
Tuning electron interactions in iron telluride selenide controls superconducting and topological phases, offering a pathway to more stable quantum computing.
By adjusting a simple chemical ratio, scientists discovered a new way to control exotic quantum states that could underpin the next generation of quantum computers.
By adjusting the ratio of two ingredients, UChicago PME & WVU scientists can switch exotic quantum states on and off in ...
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