A compact neutrino detector has successfully identified the antinitarian at the nuclear power plant, which is an important development in the particle physics. Unlike traditional detectors, which requires large -scale infrastructure, the device weighs less than three kilograms. Despite its size, she effectively discovered the antinumino emitted from the nuclear reactor in Labstadt, Switzerland. In this experiment, which lasted for 119 days, it included a Germany Crystal detector. About 400 antinuminos were recorded, aligning with theoretical predictions. Scientists believe this success can lead to better examination of physics theories and potential applications in nuclear surveillance.

Study the results of the study and the expert insights

A according to A Study Architeo was presented on January 9, depending on a specific interaction where neutrinos and anti -neutrinos are scattered with atoms. This trend, which was first seen in 2017, enables small detectors to work effectively. Kate Sholberg, Newtrino Physicist at Duke University, Told Science News that is important is important, as researchers have tried similar successes for decades. It highlighted the simplicity of interaction, comparing it with a soft push rather than a complex nuclear response.

Christian Book, a physicist at the Max Planck Institute for Nuclear Physics and co -author of the study, told Science News that the development opens a new route to neutronic physics. The clean nature of the conversation can help identify particles or unexpected magnetic properties discovered in Neutrino, he said.

Possible applications and challenges

Physicians suggest that such detectors can play their role in monitoring nuclear reactors. The ability to detect antinitarian can provide insights about the reactor activity, including the production of plutonium, which has nuclear security implications. However, the challenges remain. Virginia Tech’s neutrino physicist Jonathan Link told Science News that when the technique is promising, it is still a difficult point of view. The detector, despite its small size, requires savings to eliminate the noise of the background, and limit its transport.

This experience also helps to clarify the results of the past. In 2022, Nuclear Reactor Antinteinos was made a similar claim, but contradictions with established ideas led to conflict. The book said the new study rejects the authenticity of these previous results. With ongoing research, the field continues to be ready, which potentially further discoveries in the physics.

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