P. Łuczak scite author profile

The KASCADE-Grande air shower experiment [1] consists of, among others, a large scintillator array for measurements of charged particles, N ch , and of an array of shielded scintillation counters used for muon counting, N µ . KASCADE-Grande is optimized for cosmic ray measurements in the energy range 10 PeV to about 2000 PeV, where exploring the composition is of fundamental importance for understanding the transition from galactic to extragalactic origin of cosmic rays. Following earlier studies of the all-particle and the elemental spectra reconstructed in the knee energy range from KASCADE data [2], we have now extended these measurements to beyond 200 PeV. By analysing the two-dimensional shower size spectrum N ch vs. N µ for nearly vertical events, we reconstruct the energy spectra of different mass groups by means of unfolding methods over an energy range where the detector is fully efficient. The procedure and its results, which are derived based on the hadronic interaction model QGSJET-II-02 and which yield a strong indication for a dominance of heavy mass groups in the covered energy range and for a knee-like structure in the iron spectrum at around 80 PeV, are presented. This confirms and further refines the results obtained by other analyses of KASCADE-Grande data, which already gave evidence for a knee-like structure in the heavy component of cosmic rays at about 80 PeV [3].

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The spectrum of high-energy cosmic rays measured with KASCADE-Grande

Apel

Arteaga‐Velázquez²,

Bekk

et al. 2012

Astroparticle Physics

167

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The energy spectrum of cosmic rays between 10 16 eV and 10 18 eV, derived from measurements of the shower size (total number of charged particles) and the total muon number of extensive air showers by the KASCADE-Grande experiment, is described. The resulting all-particle energy spectrum exhibits strong hints for a hardening of the spectrum at approximately 2 · 10 16 eV and a significant steepening at ≈ 8 · 10 16 eV. These observations challenge the view that the spectrum is a single power law between knee and ankle. Possible scenarios generating such features are discussed in terms of astrophysical processes that may explain the transition region from galactic to extragalactic origin of cosmic rays.

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Kneelike Structure in the Spectrum of the Heavy Component of Cosmic Rays Observed with KASCADE-Grande

Wd¹,

Arteaga-Velázquez²,

Bekk³

et al. 2011

Phys. Rev. Lett.

185

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We report the observation of a steepening in the cosmic ray energy spectrum of heavy primary particles at about 8×10(16) eV. This structure is also seen in the all-particle energy spectrum, but is less significant. Whereas the "knee" of the cosmic ray spectrum at 3-5×10(15) eV was assigned to light primary masses by the KASCADE experiment, the new structure found by the KASCADE-Grande experiment is caused by heavy primaries. The result is obtained by independent measurements of the charged particle and muon components of the secondary particles of extensive air showers in the primary energy range of 10(16) to 10(18) eV. The data are analyzed on a single-event basis taking into account also the correlation of the two observables.

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Reconstruction of the energy and depth of maximum of cosmic-ray air showers from LOPES radio measurements

Apel¹,

Arteaga‐Velázquez²,

Bähren³

et al. 2014

Phys. Rev. D

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LOPES is a digital radio interferometer located at Karlsruhe Institute of Technology (KIT), Germany, that measures radio emission from extensive air showers at MHz frequencies in coincidence with KASCADE-Grande. In this article, we explore a method (slope method) that leverages the slope of the measured radio lateral distribution to reconstruct crucial attributes of primary cosmic rays. First, we present an investigation of the method on the basis of pure simulations. Second, we directly apply the slope method to LOPES measurements. Applying the slope method to simulations, we obtain uncertainties on the reconstruction of energy and depth of shower maximum (X max ) of 13% and 50 g=cm 2 , respectively. Applying it to LOPES measurements, we are able to reconstruct energy and X max of individual events with upper limits on the precision of 20%-25% for the primary energy and 95 g=cm 2 for X max , despite strong human-made noise at the LOPES site.

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Ankle-like feature in the energy spectrum of light elements of cosmic rays observed with KASCADE-Grande

Apel¹,

Arteaga‐Velázquez²,

Bekk³

et al. 2013

Phys. Rev. D

116

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Recent results of the KASCADE-Grande experiment provided evidence for a mild knee-like struc-25 ture in the all-particle spectrum of cosmic rays at E = 10 16.92±0.10 eV, which was found to be due to a steepening in the flux of heavy primary particles. The spectrum of the combined components of light and intermediate masses was found to be compatible with a single power law in the energy range from 10 16.3 eV to 10 18 eV. In this paper, we present an update of this analysis by using data with increased statistics, originating both from a larger data set including more recent measure-30 ments and by using a larger fiducial area. In addition, optimized selection criteria for enhancing light primaries are applied. We find a spectral feature for light elements, namely a hardening at E = 10 17.08±0.08 eV with a change of the power law index from −3.25 ± 0.05 to −2.79 ± 0.08.

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P. Łuczak

KASCADE-Grande measurements of energy spectra for elemental groups of cosmic rays

The spectrum of high-energy cosmic rays measured with KASCADE-Grande

Kneelike Structure in the Spectrum of the Heavy Component of Cosmic Rays Observed with KASCADE-Grande

Reconstruction of the energy and depth of maximum of cosmic-ray air showers from LOPES radio measurements

Ankle-like feature in the energy spectrum of light elements of cosmic rays observed with KASCADE-Grande

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