A scenario for the Galactic cosmic rays between the knee and the second-knee

Abstract

We perform a fit to measurements of the cosmic ray spectrum and of the depth of shower maximum in the energy range between 1015~eV and 1018~eV. We consider a Galactic component that is a mixture of five representative nuclear species (H, He, N, Si and Fe), for which we adopt rigidity dependent broken power-law spectra, and we allow for an extragalactic component which becomes strongly suppressed for decreasing energies. The relative abundances of the Galactic components at 1015~eV are taken to be comparable to those determined by direct measurements at 1013~eV. The main features of the spectrum and of the composition are reproduced in these scenarios. The spectral knee results from the break of the H spectrum at E k 3× 1015~eV, although it is broaden by the comparable contribution from He which has a break at about 6× 1015~eV. The low-energy ankle at E la 2× 1016~eV is associated to the strong suppression of the H and He Galactic components and the increasing relative contribution of the heavier ones, but the observed hardening of the spectrum at this energy turns out to result from the growing contribution of the extragalactic component. The second-knee at E sk 26 E k 8× 1016~eV is associated with the steepening of the Galactic Fe component. The transition to the regime in which the total cosmic ray flux is dominated by the extragalactic component takes place at an energy of about 1017~eV. The parameters of the fit depend on the hadronic model that is used to interpret the X max measurements as well as on the specific X max dataset that is considered in the fit. The impact of the possible existence of a maximum rigidity cutoff in the Galactic components is also discussed.