Mathematical foundations for noise-tolerant quantum catalysts in real-world environments
Quantum catalysts are specialized resources that enable quantum state transformations previously thought impossible, holding promise for advancements in quantum computing and thermodynamics. A recent international study has identified the conditions under which these catalysts can operate reliably e...
Image: Phys.org
Quantum catalysts are specialized resources that enable quantum state transformations previously thought impossible, holding promise for advancements in quantum computing and thermodynamics. A recent international study has identified the conditions under which these catalysts can operate reliably even amid environmental noise, marking a significant step toward practical quantum technologies.
Originally published at Phys.org
