In the hills south of Rome is Italy’s premier nuclear physics laboratory, the Frascati National Laboratory. It has all the equipment you’d expect from a state-of-the-art scientific facility, including giant magnets, powerful particle accelerators, and exposed electrical wires strung throughout. Many of the researchers here are trying to unlock the secrets of the Standard Model, the best theory of how reality works at the most fundamental level. And then there’s the room where Catalina Cruceanu is watching over a small box of lentils.

Admittedly, this is not at all normal behavior for a physicist, but Cruceanu explains why the equipment and methods of nuclear physics cause lentils and other organisms to constantly emit extremely weak photons and particles. We hope to solve the 100-year-old mystery. light’s. Some people think that these “biophotons” are not important. Others argue that they are a subtle form of lentil communication. Cruceanu leans towards the latter position, and even has a hunch that the pulses between pulses may contain secret quantum signals. “These are just the first steps, but it looks like it’s going to be very interesting,” she says.

There are already hints that living things exploit quantum phenomena, and there is also inconclusive evidence that quantum phenomena have features in things like photosynthesis and the way birds move. But lentils may be the most surprising example of quantum biology yet, because their complex behavior is poorly understood, he says. Michal Shifra At the Czech Academy of Sciences in Prague. “That would be great,” Shifra says. “If that’s true.” Because so many living things emit biophotons, such a discovery could indicate that quantum effects are ubiquitous…



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