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Antarctic Experiment Pursues Quantum Gravity Proof via Neutrino Analysis

Written by  Wednesday, 27 March 2024 20:44
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Berlin, Germany (SPX) Mar 27, 2024
In an unprecedented effort to validate the existence of quantum gravity, researchers at the University of Copenhagen's Niels Bohr Institute have embarked on a large-scale Antarctic experiment. By monitoring neutrinos, nearly massless particles that travel undisturbed through space, scientists aim to bridge the gap between classical physics and quantum mechanics. The experiment, utilizing t
Antarctic Experiment Pursues Quantum Gravity Proof via Neutrino Analysis
by Robert Schreiber
Berlin, Germany (SPX) Mar 27, 2024

In an unprecedented effort to validate the existence of quantum gravity, researchers at the University of Copenhagen's Niels Bohr Institute have embarked on a large-scale Antarctic experiment. By monitoring neutrinos, nearly massless particles that travel undisturbed through space, scientists aim to bridge the gap between classical physics and quantum mechanics.

The experiment, utilizing thousands of sensors spread across a square kilometer near the South Pole, seeks to detect neutrinos arriving from space to answer the long-standing question in physics: Does quantum gravity exist? The University of Copenhagen team has played a key role in developing the methodology that uses neutrino data for this purpose.

Tom Stuttard, an Assistant Professor at the Niels Bohr Institute, emphasized the importance of this research in potentially uniting the two distinct realms of physics. "If quantum gravity exists as we hypothesize, it would unify classical physics, which governs gravity and our everyday phenomena, with quantum mechanics, the framework for the atomic world," he stated. Stuttard is among the co-authors of a study recently published in Nature Physics, showcasing the examination of over 300,000 neutrinos. Notably, these neutrinos were sourced from the Earth's atmosphere, a strategy that leveraged their abundance for method validation before advancing to analyze deep space neutrinos.

The IceCube Neutrino Observatory, adjacent to the Amundsen-Scott South Pole Station, serves as the cornerstone of this exploratory venture. Operated by the University of Wisconsin-Madison, IceCube is part of a global collaboration involving over 300 scientists from various institutions, including more than 50 universities with IceCube centers dedicated to neutrino studies.

Neutrinos, unaffected by electromagnetic and strong nuclear forces due to their lack of electrical charge and minimal mass, offer a unique opportunity to probe the universe. Their ability to traverse billions of lightyears without alteration poses a critical question: do neutrinos experience subtle changes over vast distances that could indicate quantum gravity?

The research team is particularly interested in neutrino oscillations-a phenomenon where neutrinos appear in three distinct "flavors" (electron, muon, and tau) that change as the neutrino travels, a hallmark of quantum coherence. This study seeks to identify if quantum gravity could disrupt this coherence over the immense distances neutrinos travel from cosmic sources.

Despite the challenges of conducting experiments without a theoretical framework for quantum gravity, the researchers remain optimistic. The methodology developed through this study has laid the groundwork for future investigations with astrophysical neutrinos and advanced detectors, promising to inch closer to answering the enigmatic question of quantum gravity's existence.

Research Report:Search for decoherence from quantum gravity with atmospheric neutrinos

Related Links
University of Copenhagen
The Physics of Time and Space


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