Machine learning unravels the secrets of the Gaudin model, paving the way for improved quantum technologies and a deeper understanding of quantum behavior.
What if quantum computing could be simulated using hardware that isn’t so finicky?
A new endeavor explores the idea of topological qubits that are easy to engineer for error-free quantum computing.
What good is a fast computer if you can’t rely on it?
The quantum computer named Jiuzhang was able to complete a task 100 trillion times faster than one of the world’s fastest super computers.
Computers relying on subatomic physics: what are quantum computers, and how will they revolutionize our computing abilities?
New quantum algorithms will have dramatic impact in computational molecular biology and bioinformatics and promise to impact a number of life science applications.
Joris van Slageren´s research group discovers molecular quantum bit with exceptionally long coherence time over an unusually wide temperature range.
Munich-based team show how nanotubes can store information in the form of vibrations.
A radical superconducting qubit design promises to extend their runtime by addressing decoherence challenges in quantum computing.