The following MiniBooNE information from the 2010 CCQE cross section paper is made available to
the public:

- ν
_{μ}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}cm^{2}/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}cm^{2}/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}cm^{2}/GeV/nucleon (Table VIII) - flux-integrated single differential
cross section in bins of Q
^{2}(Figure 14) - 1D array of bin boundaries partitioning the reconstructed four momentum transfer, Q
^{2} - 1D array of the value of the single differential cross section in each bin in units of cm
^{2}/GeV^{2}/nucleon (Table IX) - 1D array of the shape uncertainty of the single differential cross section in each bin in units of cm
^{2}/GeV^{2}/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 cm
^{2}/GeV^{2}/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 cm
^{2}/nucleon (Table X) - 1D array of the shape uncertainty of the cross section in each bin in units of cm
^{2}/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 cm
^{2}/nucleon (Table X) - 1D array of the predicted CCQE-like background cross section in each bin in units of cm
^{2}/nucleon (Table X) - 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
- If you are using data linked from this page, please reference the following papers:
- The MiniBooNE collaboration wishes to acknowledge the support of Fermilab, the U.S. Department of Energy, and the U.S. National Science Foundation for the construction, operation, beam delivery, and data analysis of the MiniBooNE experiment