Tag: particle physics
What can Occam’s razor principle tell us about theories of dark matter?
Today, physicists have devised dozens of theories to explain the nature of dark matter. So far, however, not one of them has gained concrete proof through experiments. To narrow these theories down, Professor Eugene Oks at Auburn University, USA, advocates applying an important philosophical concept, which is often used when considering complex problems with many candidate solutions. Using Occam’s razor, […]
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The Future Circular Collider: Its potential and lessons learnt from the LEP and LHC experiments
As researchers seek to learn more about the fundamental nature of our universe, new generations of particle accelerators are now in development in which beams of particles collide ever more precisely and at ever higher energies. Professor Stephen Myers, former Director of Accelerators & Technology at CERN and currently Executive Chair of ADAM SA, identifies both the positive and negative […]
Exploring neutrinos: Entanglement, entropy, and fractional calculus
Neutrinos are elusive, strange particles that are produced in the nuclear reactions that power stars. As such, the study of neutrinos from the Sun gives us a window directly into the Sun’s core, as well as telling us more about these fundamental particles. However, neutrinos are notoriously hard to detect, so detectors like the Super-Kamiokande and Homestake solar neutrino experiments […]
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Interferometry with antimatter
For nearly a century, physicists have struggled to understand why the universe contains so much more matter than antimatter. In a new experiment, Dr Marco Giammarchi and colleagues at the QUPLAS collaboration have demonstrated a technique which could help in their search for an answer. For the first time, the team have demonstrated interferometry with a single antiparticle – an […]
New insights into the strong interaction with strange exotic atoms
The strong interaction plays a fundamental role in our universe. The difficulty of performing precision measurements has limited our understanding of this interaction. Dr Catalina Curceanu at the National Institute for Nuclear Physics (INFN) in Frascati-Rome is leading ambitious new efforts to study and measure the strong interaction in her lab. Her team’s work is centred around an intriguing form […]
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Searching for axions: Revealing the dark matter particle
Dark matter is one of the central mysteries of modern cosmology. Even after many years of investigation into the true nature of this enigmatic component of our Universe, every search for its cause has so far come up short. Dr David J. E. Marsh at the University of Göttingen believes that the solution lies with a fundamental particle which was […]
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NUMEN Project: Exploring key aspects of neutrinoless double beta decay by nuclear reactions
The Standard Model of particle physics may represent our most advanced understanding yet of the universe’s fundamental building blocks, but many physicists believe it is incomplete. One of the most enticing prospects for updating the model lies with ‘neutrino-less double beta decay’ – a process which has been theorised for many decades, but has yet to be observed. Professor Francesco Cappuzzello […]