Results from Tunka-133 (5 years observation) and from the Tunka-HiSCORE prototype

Abstract: Abstract. Data obtained with two detectors located at the Tunka Cosmic Ray facility are presented. The Cherenkov light array for registration of extensive air showers (EAS) Tunka-133 collected data during 5 winter seasons since 2009 to 2014. The differential energy spectrum of all particles and the dependence of the average maximum depth on the energy in the range of 6 · 10 15 −10 18 eV measured for 1540 hours of observation are presented.The preliminary all particle energy spectrum by the data of TunkaHiSCORE… Show more

“…4). Since Tunka-133 is operating in the same energy range as KASCADE-Grande [19], it provides a cross-check of the position of second knee using a model-independent reconstruction with air-Cherenkov techniques [20]. By using the Tunka-Rex and LOPES radio extensions of Tunka-133 and KASCADE-Grande, respectively, it was shown that both detectors feature a consistent energy scale [21], what confirmed the determination of the spectral shape in this energy region.…”

Tunka Advanced Instrument for cosmic rays and Gamma Astronomy

“…4). Since Tunka-133 is operating in the same energy range as KASCADE-Grande [19], it provides a cross-check of the position of second knee using a model-independent reconstruction with air-Cherenkov techniques [20]. By using the Tunka-Rex and LOPES radio extensions of Tunka-133 and KASCADE-Grande, respectively, it was shown that both detectors feature a consistent energy scale [21], what confirmed the determination of the spectral shape in this energy region.…”

Tunka Advanced Instrument for cosmic rays and Gamma Astronomy

“…Comparison of the all-particle and composition spectra of the four elemental groups H, He, O, and Fe from this analysis using Sibyll 2.1 (black) with other experiments. The dataset for the all-particle spectra is taken from Tibet [42], Tunka [43], Yakutsk [44], Tale [45], Hires [46], and Telescope Array [47]. The Kascade [48] results are using a five component fit of H, He, CNO, MgSi, and Fe groups using Sibyll 2.1.…”

Cosmic ray spectrum and composition from PeV to EeV using 3 years of data from IceTop and IceCube

“…8. The results are compared with data of Tunka [46], LOFAR [47], TA [52] and Auger [42], derived using the hadronic interaction model QGSJetII-04. There is also the Yakutsk array data for 1994-2010 [53]].…”

“…8: Average atomic mass lnA derived from the average depth of the shower maximum with QGSJetII-04 [11]. Comparison with Yakutsk (1994-2010) [53], Tunka [46], LOFAR [47], TA [52] and Auger [42] data.…”

Mass composition of cosmic rays above 0.1 EeV by the Yakutsk array data