T. Antoni scite author profile

The attenuation of the electron shower size beyond the shower maximum is studied with the KASCADE extensive air shower experiment in the primary energy range of about 10 14 − 10 16 eV. Attenuation and absorption lengths are determined by applying different approaches, including the method of constant intensity, the decrease of the flux of extensive air showers with increasing zenith angle, and its variation with ground pressure. We observe a significant dependence of the results on the applied method. The determined values of the attenuation length ranges from 175 to 196 g/cm 2 and of the absorption length from 100 to 120 g/cm 2 . The origin of these differences is discussed emphasizing the influence of intrinsic shower fluctuations.

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KASCADE measurements of energy spectra for elemental groups of cosmic rays: Results and open problems

Antoni

Apel²,

Badea³

et al. 2005

Astroparticle Physics

534

338

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A composition analysis of KASCADE air shower data is performed by means of unfolding the two-dimensional frequency spectrum of electron and muon numbers. Aim of the analysis is the determination of energy spectra for elemental groups representing the chemical composition of primary cosmic rays. Since such an analysis depends crucially on simulations of air showers the two different hadronic interaction models QGSJet and SIBYLL are used for their generation. The resulting primary energy spectra show that the knee in the all particle spectrum is due to a steepening of the 0927-6505/$ -see front matter Ó Astroparticle Physics 24 (2005) 1-25 www.elsevier.com/locate/astropart spectra of light elements but, also, that neither of the two simulation sets is able to describe the measured data consistently over the whole energy range with discrepancies appearing in different energy regions.

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The cosmic-ray experiment KASCADE

Antoni

Apel²,

Badea

et al. 2003

Nuclear Instruments and Methods in Physics Research Section A:

349

159

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Large‐Scale Cosmic‐Ray Anisotropy with KASCADE

Antoni

Apel²,

Badea³

et al. 2004

ApJ

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The results of an analysis of the large scale anisotropy of cosmic rays in the PeV range are presented. The Rayleigh formalism is applied to the right ascension distribution of extensive air showers measured by the KASCADE experiment. The data set contains about 10 8 extensive air showers in the energy range from 0.7 to 6 PeV. No hints for anisotropy are visible in the right ascension distributions in this energy range. This accounts for all showers as well as for subsets containing showers induced by predominantly light respectively heavy primary particles. Upper flux limits for Rayleigh amplitudes are determined to be between 10 −3 at 0.7 PeV and 10 −2 at 6 PeV primary energy.

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Electron, muon, and hadron lateral distributions measured in air showers by the KASCADE experiment

Antoni¹,

Apel²,

Badea³

et al. 2001

Astroparticle Physics

101

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T. Antoni

Measurements of attenuation and absorption lengths with the KASCADE experiment

KASCADE measurements of energy spectra for elemental groups of cosmic rays: Results and open problems

The cosmic-ray experiment KASCADE

Large‐Scale Cosmic‐Ray Anisotropy with KASCADE

Electron, muon, and hadron lateral distributions measured in air showers by the KASCADE experiment

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