Precision Measurement of Cosmic-Ray Nitrogen and its Primary and Secondary Components with the Alpha Magnetic Spectrometer on the International Space Station

The nitrogen flux $\Phi_{\rm N}$ as a function of rigidity at the top of AMS including errors due to statistics (stat); contributions to the systematic error from the trigger, acceptance and background contamination (acc); the rigidity resolution function and unfolding (unf); and the total systematic error (syst). The contribution of individual sources to the systematic error are added in quadrature to arrive at the total systematic error. The Monte Carlo event samples have sufficient statistics such that they do not contribute to the errors.

The nitrogen to oxygen flux ratio N/O as a function of rigidity including errors due to statistics (stat); contributions to the systematic error from the trigger, acceptance and background contamination (acc); the rigidity resolution function and unfolding (unf); the absolute rigidity scale (scale); and the total systematic error (syst). The statistical errors are the quadratic sum of the relative statistical errors of the nitrogen and oxygen fluxes multiplied by the N/O ratio. The systematic errors from the background subtraction, the trigger, and the event reconstruction and selection are likewise added in quadrature. The correlations in the systematic errors from the uncertainty in nuclear interaction cross sections, the unfolding and the absolute rigidity scale between the nitrogen and oxygen fluxes have been taken into account in calculating the corresponding systematic errors of the N/O ratio. The contribution of individual sources to the systematic error are added in quadrature to arrive at the total systematic uncertainty.
 

The nitrogen to boron flux ratio N/B as a function of rigidity including errors due to statistics (stat); contributions to the systematic error from the trigger, acceptance and background contamination (acc); the rigidity resolution function and unfolding (unf); the absolute rigidity scale (scale); and the total systematic error (syst). The statistical errors are the quadratic sum of the relative statistical errors of the nitrogen and boron fluxes multiplied by the N/B ratio. The systematic errors from the background subtraction, the trigger, and the event reconstruction and selection are likewise added in quadrature. The correlations in the systematic errors from the uncertainty in nuclear interaction cross sections, the unfolding and the absolute rigidity scale between the nitrogen and boron fluxes have been taken into account in calculating the corresponding systematic errors of the N/B ratio. The contribution of individual sources to the systematic error are added in quadrature to arrive at the total systematic uncertainty.