The following MiniBooNE information from the 2010 CCQE cross section paper is made available to
the public:
- νμ CCQE
cross sections:
- MiniBooNE flux
- table of predicted MiniBooNE muon neutrino flux (Table V)
- flux-integrated double differential
cross section (Figure 13)
- 1D array of bin boundaries partitioning the muon kinetic energy (top) and the cosine of the muon scattering angle (bottom)
- 2D array of the value of the double differential cross section in each bin in units of 10-41 cm2/GeV/nucleon.
The muon kinetic energy increases from left to right, and the cosine of the muon scattering angle decreases from top to bottom (Table VI)
- 2D array of the shape uncertainty of the double differential cross section in each bin in units of 10-42 cm2/GeV/nucleon.
The total normalization error is 10.7% (Table VII)
- 2D array of the predicted CCQE-like background double differential cross section in each bin in units of 10-41 cm2/GeV/nucleon (Table VIII)
- flux-integrated single differential
cross section in bins of Q2 (Figure 14)
- 1D array of bin boundaries partitioning the reconstructed four momentum transfer, Q2
- 1D array of the value of the single differential cross section in each bin in units of cm2/GeV2/nucleon (Table IX)
- 1D array of the shape uncertainty of the single differential cross section in each bin in units of cm2/GeV2/nucleon.
The total normalization error is 10.7% (Table IX)
- 1D array of the predicted CCQE-like background single differential cross section in each bin in units of cm2/GeV2/nucleon (Table IX)
- flux-unfolded cross section as a function of
neutrino energy (Figure 15)
- 1D array of bin boundaries partitioning the neutrino energy
- 1D array of the value of the cross section in each bin in units of cm2/nucleon (Table X)
- 1D array of the shape uncertainty of the cross section in each bin in units of cm2/nucleon.
The total normalization error is 10.7% (Table X)
- 1D array of the total uncertainty of the cross section in each bin in units of cm2/nucleon (Table X)
- 1D array of the predicted CCQE-like background cross section in each bin in units of cm2/nucleon (Table X)
Contact Information
- For clarifications on how to use MiniBooNE public data or for enquiries about additional data not linked from this page, please contact: Steve Brice or Richard Van de Water
Acknowledgments
- If you are using data linked from this page, please reference the following papers:
A. A. Aguilar-Arevalo et al. [MiniBooNE Collaboration], "First Measurement of the Muon Neutrino Charged Current
Quasielastic Double Differential Cross section", Phys. Rev. D81, 092005 (2010)
