“Quantum clocks running at the smallest scales were expected to lower the energy cost of timekeeping, but our new experiment ...

Scientists learned that reading a quantum clock requires orders of magnitude more energy than running it. This surprising imbalance reveals that observation itself shapes the flow and thermodynamics ...

Determining the passage of time in our world of ticking clocks and oscillating pendulums is a simple case of counting the seconds between 'then' and 'now'. Down at the quantum scale of buzzing ...

Measuring time might not seem like that complex of a thing. After all, we rely on simply counting seconds between the "then" and the "now." But when you really start to break time down to the quantum ...

The advent of web-based platforms for behavioural experimentation has revolutionised the way researchers approach data collection, enabling large-scale, cost-effective studies with diverse populations ...

An experiment outlined by a UCL-led team could test whether relatively large masses have a quantum nature, resolving the question of whether quantum mechanical description works at a much larger scale ...

Prof. Joachim Burgdörfer from the Institute of Theoretical Physics at TU Wien explains, “Entangled particles possess no ...

The Institute of High Energy Physics (IHEP) of the Chinese Academy of Sciences has successfully completed the Jiangmen ...