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Imagine a particle so ghostly that over 100 trillion of them might move by you each single second with out you noticing something in any respect. Spooky, proper? Well, imagine it or not, these particles, known as “neutrinos,” not solely exist, however they’re so plentiful that they’re the second commonest particle within the universe (after photons, the particles that make up mild).
So, you may not get visited by a phantom this Halloween, however you may positively encounter loads of cosmic ghost neutrinos, but you will not discover a single factor. In truth, you are encountering them proper now.
For example, scientists theorize that neutrinos were vitally important in the process that led to matter vastly outweighing antimatter in the universe. Antimatter and matter should have been created in equal amounts by the Big Bang — shouldn’t they be perfectly symmetrical because they’re made of the same particle components, just with opposite charges? — it is perplexing how one came to rule over the other. And, because when matter and antimatter counterparts meet, they annihilate each other; if it weren’t for the process that gave matter the upper hand, the universe may have been devoid of matter altogether.
Like the Scooby-Doo-gang approaching another haunted mansion or abandoned funfair, scientists are determined to get to the bottom of this cosmic ghost story. As you might imagine, even though neutrinos are created by a wealth of cosmic events like stars and supernovas and even nuclear reactors here on Earth, the fact that they are virtually massless, chargeless and traverse the cosmos at near the speed of light means detecting them is much harder than nabbing Mr. Carswell the corrupt bank manager or dastardly museum curator Mr. Wickles.
However, just like Fred, Velma, Daphne, Shaggy and Scooby always come together to remove another rubber fright mask and expose a spooky crook, selected scientists have gathered via 2025’s Science Policy & Advocacy for Research Competition (SPARC) to unravel the thriller of those cosmic phantoms. Lasting 10 weeks, the SPARC seminar collection goals to equip scientists with important abilities in science coverage and communication, serving to them translate complicated analysis into clear messages for nontechnical audiences.
And neutrinos actually match the invoice.
“I’ve always been fascinated by how we extract information from reality — even when we can’t fully define what reality is,” Karim Hassinin, a Ph.D. candidate on the University of Houston and SPARC participant, said in a statement. “Theory, at its core, is a kind of storytelling, and every model is just one way of seeing the world. Through this program, I hope to learn how to translate those complex layers of scientific reasoning into stories that anyone can understand — so people can see not just the data, but the wonder behind discovery.”
Hassinin is behind a brand new method to consider neutrinos, developed because of instructing an undergraduate physics class and seeing that his college students had completely different views on these cosmic phantoms. He is bringing that new method to SPARC and, by it, to a wider normal viewers.
“The technical details will always be there, but it’s essential to show people the purpose of science and how it shapes our world,” Hassinin mentioned. “Our daily lives depend on technology, and technology depends on science. Through SPARC, I’ve gained a new perspective on how vital it is to bridge the gap between complex research and public understanding — because science communication truly matters everywhere.”
In phrases of his analysis, Hassinin makes use of pc simulations to research how neutrinos work their ghostly magic as they move by various kinds of supplies.
“We tell the generator how many neutrinos we want to use, what type of neutrino, and what material we want the neutrino to interact with,” Hassinin defined. “Without neutrino interactions, we don’t know anything about neutrinos. We have to understand something deeply before we can understand how to apply it.”
Meghna Bhattacharya, a Postdoctoral Research Associate at Fermi National Accelerator Laboratory (Fermilab), is one other scientist scorching on the path of neutrinos, specializing in algorithms that might determine neutrinos ejected into the universe when huge stars attain the tip of their lives and go supernova.
Bhattacharya’s work is about to play a key function in serving to to develop the Deep Underground Neutrino Experiment (DUNE), two neutrino detectors positioned in an intense beam of trillions of neutrinos presently beneath improvement close to Fermilab, Illinois, and a far detector on the Sanford Underground Research Facility (SURF), South Dakota.
“These tools are designed to be integrated into DUNE, contributing to major questions about the universe’s evolution while also advancing computational techniques in physics,” Bhattacharya mentioned. “The tools being developed to answer fundamental science questions often lead to broader real-world applications. For example, technologies like proton beams, originally used in particle physics, are now being used for cancer treatment.”
For Bhattacharya, the enchantment of SPARC is the chance to share the story of her analysis with a wider viewers and to make this viewers conscious of its wider impression on society.
“Looking forward, I hope to grow as a communicator and advocate for science more effectively, not only to learn how to distill complex research into accessible narratives but also to pass down the excitement of my research,” she concluded.
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https://www.space.com/science/particle-physics/ghost-particles-can-zoom-through-you-without-a-trace-scientists-are-getting-to-the-bottom-of-this-cosmic-mystery
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