The performance of quantum computers could cap out after around 1,000 qubits, according to a new analysis published in the Proceedings of the National Academy of Sciences. Through new calculations, ...

For the first time, researchers have demonstrated that the properties of the perovskite family of materials can be used to create so-called quantum bits. The findings, published in the journal Nature ...

Abstract: Presence of harmful noise is inevitable in quantum sensing systems, requiring careful allocation of resources to optimize sensing performance in practical scenarios. We advocate a simple but ...

Abstract: The interpretability of quantum machine learning (QML) refers to the capability to provide clear and understandable explanations for the predictions and decision-making processes of QML ...

“The material had been classified as a quantum spin liquid due to two properties: observation of a continuum of states and lack of magnetic ordering,” said Bin Gao, co-first author and a research ...

ABSTRACT: Grover’s algorithm is widely celebrated as providing quadratic quantum speedup for unsorted database search, forming the theoretical foundation for numerous claimed quantum advantages in ...

<meta name="description" content=" Quantum Phase Estimation Quantum phase estimation is one of the most important subroutines in quantum computation. It serves as a ...

The Quantum Lattice Model (QLM) is a deterministic theoretical physics framework developed by Quinton R. D. Tharp. QLM proposes that fundamental physics emerges from discrete Planck-scale lattice ...