Nuclear Effects in Quasi-Elastic and Delta Resonance Production at Low Momentum Transfer
2015-08
Loading...
View/Download File
Persistent link to this item
Statistics
View StatisticsJournal Title
Journal ISSN
Volume Title
Title
Nuclear Effects in Quasi-Elastic and Delta Resonance Production at Low Momentum Transfer
Authors
Published Date
2015-08
Publisher
Type
Thesis or Dissertation
Abstract
Analysis of data collected by the MINERvA experiment is done by showing the distribution of charged hadron energy for interactions that have low momentum transfer. This distribution reveals major discrepancies between the detector data and the standard MINERvA interaction model with only a simple global Fermi gas model. Adding additional model elements, the random phase approximation (RPA), meson exchange current (MEC), and a reduction of resonance delta production improve this discrepancy. Special attention is paid to resonance delta production systematic uncertainties, which do not make up these discrepancies even when added with resolution and biasing systematic uncertainties. Eye- scanning of events in this region also show a discrepancy, but we were insensitive to two-proton events, the predicted signature of the MEC process.
Keywords
Description
University of Minnesota M.S. thesis. August 2015. Major: Physics. Advisor: Richard Gran. 1 computer file (PDF); x, 82 pages.
Related to
Replaces
License
Series/Report Number
Funding information
Isbn identifier
Doi identifier
Previously Published Citation
Other identifiers
Suggested citation
Demgen, John. (2015). Nuclear Effects in Quasi-Elastic and Delta Resonance Production at Low Momentum Transfer. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/174756.
Content distributed via the University Digital Conservancy may be subject to additional license and use restrictions applied by the depositor. By using these files, users agree to the Terms of Use. Materials in the UDC may contain content that is disturbing and/or harmful. For more information, please see our statement on harmful content in digital repositories.