Repository logo
 

Measurement of the differential charged current single pion cross section using muon momentum and muon angle in the pi zero detector of the T2K experiment

Date

2018

Authors

Schwehr, Jaclyn, author
Wilson, Robert J., advisor
Berger, Bruce, committee member
Toki, Walter, committee member
Mooney, Michael, committee member
Brandl, Alexander, committee member

Journal Title

Journal ISSN

Volume Title

Abstract

A measurement of the charged current single pion differential cross section in the pi-zero detector of the T2K experiment is presented as a function of reconstructed muon momentum and muon angle. This measurement is done with particular care taken to minimize model dependence throughout the analysis, specifically with careful signal definition and efficiency corrections. New methods for improving the reconstruction of low energy pions are included, as is a method for fitting background events induced by signal physics without introducing model dependence to the fit. Run 4 water-in data is used to make this measurement, which corresponds to an exposure of 1.63×1020 protons on target. The differential cross section measurement is made per nucleon for all targets in the fiducial volume of the pi-zero detector over muon angles of 0◦ to 90◦ with respect to the incident neutrino beam direction, and muon momenta from 150 MeV to 5 GeV. The measured cross sections are lower than those predicted by the default Rein Sehgal resonance and coherent models, favoring the Minoo resonance and Berger Sehgal coherent models.

Description

Rights Access

Subject

cross-section
CC1pi
neutrino

Citation

Associated Publications