Partitioning of an electron droplet. Credit: Nature (2025). DOI: 10.1038/s41586-025-09139-z
Three electrons are enough to trigger strong interactions between particles. That is what was demonstrated by scientists from the CNRS and l’Université de Grenoble Alpes, in collaboration with teams from Germany and Latvia, in a study published in the journal Nature.
With the help of a tiny collider they built themselves, the researchers successfully “accelerated” up to five electrons at the same time toward a separation barrier, and counted the number of electrons present on each side.
The result: Three electrons are enough to show strong interactions between particles. With five electrons, the interactions become so intense that they imitate the behavior of hundreds of billions of electrons. Placed together, these three particles form an actual “heap” in the liquid state.
Inspired by the heap paradox (How many grains of rice are needed to form a heap?) this unprecedented experiment helps to elucidate the moment at which collective behavior in matter is born. These principles apply not only in nanoelectronics, but also in the physics of elementary particles, for instance at the LHC.
More information:
Jashwanth Shaju et al, Evidence of Coulomb liquid phase in few-electron droplets, Nature (2025). DOI: 10.1038/s41586-025-09139-z
Citation:
Tiny collider experiment determines three electrons are enough for strong interactions between particles (2025, June 25)
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