The workshop will feature, in particular, two panel discussions open to questions from the audience on DEI and Machine Learning in nuclear physics.Ī recent article in Nature reports on results from the MoEDAL collaboration providing a lower mass limit for finite-size magnetic monopoles. The main topics addressed in next week's workshop in Newcomb Hall involve advances in both perturbative and non-perturbative techniques in Quantum Chromodynamics(QCD). A major goal of the workshop is to provide guidance to the physics programs at experimental facilities from Jefferson Lab to the upcoming, next-generation nuclear physics accelerator in the U.S., the Electron Ion Collider (EIC). With additional sponsorship by the College's Department of Physics, QCD Evolution provides a forum to discuss the most recent scientific advances in the exploration of the strong interactions and how they give rise to mass, spin and the internal structure of all visible matter at the femto scale, or the field of nuclear femtography. Sponsored by the Department of Energy-funded Jefferson Lab and the Southeastern Universities Association, QCD Evolution has grown into an important hadron-physics meeting since its first workshop in 2011. This work was featured in a recent UVA Today article: Īnd an NBC news article featuring an interview of the leader of the Khufu team, Alan Bross: The scan of the Great Pyramid of Khufu requires a much larger detector, for which Dukes and the rest of a different research team, after having received approval by the Egyptian Ministry of Antiquities, are seeking funding. Using a novel detector design Dukes's research team developed for an experiment, Mu2e, at the Fermi National Accelerator Laboratory (Fermilab) outside of Chicago, they intend to probe the interior of the two pyramids using cosmic-ray muons, making a tomographic image of them.ĭukes and Roberts spent their spring break at Chichen Itza, working with other members of the research team making preliminary measurements and surveys of El Castillo, while Ehrlich took prototype detectors to Fermilab to measure their performance. Professor Dukes, research scientist Ralf Ehrlich, and undergraduate student Sydney Roberts are embarked on two archeology projects to search for hidden structures in the Great Pyramid of Khufu in Giza, Egypt and the El Castillo pyramid in Chichen Itza, Mexico. Fabrication of the much smaller detector needed for this effort will commence this summer at UVA, with the detector to be transported to Mexico later this year. Those results were presented by Ehrlich at the Minneapolis meeting.Įhrlich and Dukes, along with undergraduate physics major Sydney Roberts, are also engaged in a very similar project to explore the interior of the Temple of Kukulcan at Chichen Itza. Ehrlich has been leading the simulation effort needed to determine the detector parameters and expected resolution in finding hidden voids. The detector concept is “based on the design of the Cosmic Ray Veto detector that is being fabricated at UVA for the Mu2e experiment at Fermilab”, according to Ehrlich, who noted that the title of the APS article, which states that the detector was developed at Fermilab is not quite true. Craig Dukes and technician Eric Fernandez, have designed the detector that would be used to perform the search. Alan Bross of Fermilab who leads the project, were interviewed for an article published by the APS in the June edition of their APSNews journal.Ī link to the article can be found here: Įhrlich, along with Prof. Ralf Ehrlich, at the April Meeting of the American Physical Society (APS) in Minneapolis, presented plans to search for hidden structures of the Great Pyramid of Khufu using cosmic-ray muons.
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