A newly published study in the Journal of Cosmology and Astroparticle Physics JCAP has not detected any signals attributable ...

Quantum computing is no longer just a buzzword reserved for scientists and tech enthusiasts. It’s a quick transforming field ...

Qudit-based quantum systems could store more information and perform computations more efficiently than qubit-based systems, yet they are also more prone to decoherence. Decoherence is a loss of ...

Despite their promise, many quantum computers developed so far are susceptible to decoherence, which entails the disruption of qubit states due to their interaction with the surrounding environment.

While the non-deterministic nature of quantum computing may seem daunting, QA professionals can utilize tools that will help ...

Researchers discovered how Floquet Majorana fermions can improve quantum computing by controlling superconducting currents, potentially reducing errors and increasing stability. A new study has ...

Join Curt Jaimungal talks to Harvard physicist Jacob Barandes and Scott Aaronson. Jacob Barandes claims quantum mechanics can be reformulated without wave ...

Quantum computing has the potential to revolutionize various fields, but practical deployments capable of solving real-world problems face ...

Alice & Bob announced it has improved error correction 160-fold by 'squeezing' qubits together. And IonQ announced it has ...

USTC researchers created a long-lived Schrödinger-cat state, boosting quantum metrology and precision measurements. Their ...

It essentially fixes the quantum decoherence problem, providing the stability needed to construct larger systems, such as workable quantum computers. So what are the possibilities now that this ...