
Nuclear Physics
We try to understand how the smallest building blocks of matter, the quarks and the gluons, build up the first level of composite systems in nature. The building blocks of the atomic nucleus, the protons and the neutrons, are good examples.
Research within Nuclear Physics
Many of the research projects we're carrying out are part of larger international collaborations. The projects we're currently engaged in are:
Calendar
- Unfortunately there are no upcoming events at this time
Publications
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Measurement of e(+)e(-) -> omega pi(+)pi(-) cross section at s=2.000 to 3.080 GeV
2023
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Measurement of the K-S ?: pe? branching fraction with the KLOE experiment
2023
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New physics searches at kaon and hyperon factories
2023
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Observations of the Cabibbo-Suppressed decays Λ+c → nπ+ π0, nπ+π-π+ and the Cabibbo-Favored decay Λ+c → nK-π+π+*
2023
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Search for the lepton flavor violating decay J/psi -> e mu
2023

Research profile
Photo: Mats Kamsten
Karin Schönning´s research (in Swedish)