Postdoctoral fellows and undergraduates will be trained and supported by this project. Another example is the case of precision electron-proton scattering experiments with polarized electrons, where the PI will do calculations relevant to extensions of the initial experiments that may allow measuring properties of short-lived excited states of the proton and the possibility of comparing them to predictions based on the current theoretical understanding of the physics involved. The PI will calculate corrections needed for the interpretation of the data and will study beyond the Standard Model hypotheses to explain the proton radius puzzle, along with suggesting new experiments for future testing of these ideas. A prominent such example is the proton radius puzzle, where measuring the proton radius using electrons gives different results than using muons. The theoretical calculations by the investigator and his collaborators will support and suggest new avenues for low-energy experiments sensitive for signatures of new physics. Although the Standard Model has been successful in describing the elementary particles that make up most of known matter in the Universe, many questions still remain unanswered. This theoretical project will support current searches for physics beyond the Standard Model of particle physics. Primary Place of Performance Congressional District:Ġ1001516DB NSF RESEARCH & RELATED ACTIVIT 01001617DB NSF RESEARCH & RELATED ACTIVIT 01001718DB NSF RESEARCH & RELATED ACTIVIT Carl Carlson (Principal Investigator) Sponsored Research Office:.Research in Theoretical Hadronic Physics and Related Topics NSF Org:īogdan Mihaila (703)292-8235 PHY Division Of Physics MPS Direct For Mathematical & Physical ScienįY 2015 = $100,000.00 FY 2016 = $100,000.00 FY 2017 = $100,000.00
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