Now, two unrelated-but-similar experiments confirm that, in a double-slit experiment, detection of a photon’s path (its ...

STM characterization of an in situ-created stadium-shaped GQD. Credit: Nature (2024). DOI: 10.1038/s41586-024-08190-6 Patterns in chaos have been proven, in the incredibly tiny quantum realm, by an ...

In our lived reality, we perceive time as a linear progression moving in one direction. While today gives way to tomorrow and the day after and so on in the real world, new findings show that time can ...

Long considered a serious technical challenge, superradiance could actually help quantum devices go even further.

Breaking the time asymmetry remains a fundamental yet tantalizing scientific challenge. At the macroscopic level the quest has so far turned out to be fruitless, but on the other hand in the subatomic ...

Assistant Professor Julian Léonard at the Institute of Science and Technology Austria (ISTA). Léonard explains how his group can view the quantum interactions between individual atoms under an optical ...

A new breakthrough may help scientists solve some of the mysteries of the quantum realm. For the first time, physicists have been able to measure the geometrical 'shape' a lone electron adopts as it ...

Theoretical physicists are trying to understand how the many possibilities that exist in quantum physics can become 'real.' A new model developed by UC Davis researchers suggests that there may be ...

The Thinking Beyond webinar, "What happens when a quantum measurement is made?" held on Feb. 26, focused on the intricacies of quantum measurements and their implications for understanding the quantum ...

Where do you see patterns in chaos? It has been proven, in the incredibly tiny quantum realm, by an international team co-led by UC Santa Cruz physicist Jairo Velasco, Jr. In a new paper published on ...