data_mc_comp.ps(eps) - visible neutrino energy distributions for muc3d 1 and 2 track (Delta(Theta)<20) samples compared to Nuance/Neut 4.0 MC predictions. Both MC samples have been normalised to the number of data events. The shaded region is the QE MC sample from Neut 4.0 data_mc_bs_comp.ps(eps) - background subtracted visible neutrino energy distribution for 1 and 2 track muc3D events in data compared to Nuance/Neut4.0 MC prediction. The two track sample has had a Delta(theta) cut of less than 20 degrees applied. Both MC samples have been normalised to the number of data events. data_mc_inel_comp.ps(eps) - visible neutrino energy distribution (top) and reconstructed muon momentum distribution (bottom) in *inelastic* sample (Delta(Theta)>30 degrees). The data has been compared to the Nuance/Neut 4.0 MC prediction. Both MC samples have been normalised to the number of events in the data. data_mcNeut_comp.ps - same as data_mc_comp.ps except that the data is compared to Neut4.0 only data_mcNeut_bs_comp.ps - same as data_mc_bs_comp.ps except that the data is compared to Neut4.0 only data_mcNeut_inel_comp.ps - same as data_mc_inel_comp.ps except that the data is compared to Neut4.0 only migration.ps(eps) - efficiency matrices for muc3d 1 and 2 track event samples and the efficiency as a function of the true neutrino energy for each sample. specsys.ps(eps) - List of systematic errors considered in the energy spectrum analysis. enuspec_d.ps(eps) - Unfolded neutrino spectrum (from data). The statistical errors are represented by the lines on each data point the systematic errors represented by the boxes surrounding each data point. enuspec_mc.ps(eps) - Monte Carlo Charged current quasielastic neutrino energy spectrum on same scale as enuspec_d.ps (to help with overlays) enuspec_d_mc.ps(eps) - Comparison of Monte Carlo Charged Current quasielastic neutrino energy spectrum with unfolded spectrum (shape only). The distributions have been normalised to the number of events above 0.5 GeV. enuspec_d_pi.ps(eps) - Comparison of Monte Carlo Charged Current quasielastic neutrino energy spectrum with unfolded spectrum (shape only) AND comparison with predicted spectrum from the pion monitor flux results. The pion monitor flux has been weighted by the average QE cross section in each energy bin and normalised to the number of data events above 1 GeV. NOTE FOR THE FOLLOWING PLOTS ----------------------------- The following plots show the neutrino flux, which is the number of events divided by the CCQE cross section. The cross section is given in units of 10^-38 cm^2. The vertical axis has units of cm^2. It is NOT the absolute flux, since the number of target atoms has not been taken into account. enuspec_d_nxsect.ps(eps) - Unfolded neutrino flux (from data). This is defined to the data in enuspec_d.ps with each bin divided by the average quasielastic cross section in that energy bin. The statistical errors are represented by the lines on each data point the systematic errors represented by the boxes surrounding each data point. enuspec_mc_nxsect.ps(eps)- Monte Carlo true neutrino flux spectrum on same scale as enuspec_d_nxsect.ps (to help with overlays). enuspec_d_mc_nxsect.ps(eps) - Comparison of Monte Carlo true neutrino energy spectrum with unfolded (cross section corrected) spectrum (shape only). The distributions have been normalised to the number of events above 0.5 GeV. enuspec_d_pi_nxsect.ps(eps) - Comparison of the Monte Carlo true neutrino energy spectrum with unfolded spectrum (shape only) AND comparison with predicted spectrum from the pion monitor flux results. The pion montior flux has been normalised to the data above 1 GeV.