Two-dimensional (2D) semiconductors are thin materials (i.e., one-atom thick) with advantageous electronic properties. These ...

The past week has offered a clear view of how fast modern technology is moving from controlled research spaces into real-world use. From advances in quantum science to major funding rounds and large ...

Chances are that you’ve caught the buzzword ‘quantum’ a few times if you stay up to date on the electronics industry. But why exactly has quantum computing been making waves and what does it mean for ...

Both superconducting and silicon spin qubits–two of the most popular quantum computing technologies–require extremely low ...

QuantrolOx today announced a major milestone in quantum technology with the launch of VIDYAQAR, the world's first True Open-Architecture Quantum Platform designed specifically for education, research, ...

The funding will support the advancement of Anyon's technical roadmap towards its next generation, fault-tolerant quantum ...

Frequency Electronics' robust $71M backlog, minimal leverage, and a $20M buyback program underscore strong fundamentals. Read ...

ERC has awarded a Consolidator Grant for SuperQold project, focuses on scaling superconducting qubit readout with millikelvin (mK) detection.

Few people have heard of the French quantum computing startup C12 Quantum Electronics SAS, but that could change if its novel architecture for creating the qubits that power these next-generation ...

Scientists have directly observed Floquet effects in graphene for the first time. This breakthrough settles a scientific debate about tuning quantum materials with light. The ultrafast light technique ...

Many quantum effects can only be produced at extremely cold temperatures, which limits how useful they would be in real-world tech. Now, Princeton researchers have demonstrated a strange quantum state ...