Your search keyword '"H. J. Mayer"' showing total 19 results

1. Radio emission of highly inclined cosmic ray air showers measured with LOPES

Author

J. Petrovic, W. D. Apel, T. Asch, F. Badea, L. Bähren, K. Bekk, A. Bercuci, M. Bertaina, P. L. Biermann, J. Blümer, H. Bozdog, I. M. Brancus, M. Brüggemann, P. Buchholz, S. Buitink, H. Butcher, A. Chiavassa, F. Cossavella, K. Daumiller, F. Di Pierro, P. Doll, R. Engel, H. Falcke, H. Gemmeke, P. L. Ghia, R. Glasstetter, C. Grupen, A. Haungs, D. Heck, J. R. Hörandel, A. Horneffer, T. Huege, K.-H. Kampert, Y. Kolotaev, O. Krömer, J. Kuijpers, S. Lafebre, H. J. Mathes, H. J. Mayer, C. Meurer, J. Milke, B. Mitrica, C. Morello, G. Navarra, S. Nehls, A. Nigl, R. Obenland, J. Oehlschläger, S. Ostapchenko, S. Over, M. Petcu, T. Pierog, S. Plewnia, H. Rebel, A. Risse, M. Roth, H. Schieler, O. Sima, K. Singh, M. Stümpert, G. Toma, G. C. Trinchero, H. Ulrich, J. van Buren, W. Walkowiak, A. Weindl, J. Wochele, J. Zabierowski, J. A. Zensus, and D. Zimmermann

Subjects

Physics, LOPES, Physics::Instrumentation and Detectors, Astronomy, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics (astro-ph), Detector, Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Astronomy and Astrophysics, Cosmic ray, LOFAR, Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Air shower, KASCADE, Space and Planetary Science, High Energy Physics::Experiment, Event (particle physics), Zenith

Abstract

Contains fulltext : 36387.pdf ( ) (Open Access) Contains fulltext : 36387.pdf (Publisher’s version ) (Open Access) Aims.The capability of radio antenna arrays to measure cosmic ray air showers with very large zenith angles is explored. This is important, since a possible neutrino detection has to fulfill two requirements. First: antennas should be able to detect very inclined cosmic ray air showers, and second: it should be possible to estimate the distance to the shower maximum, since neutrinos are most likely to travel far through the Earth's atmosphere without interaction and induce air showers close to the ground. Methods: LOPES (LOFAR PrototypE Station; LOFAR - LOw Frequency ARray), an array of dipole antennas, is used for the detection of inclined cosmic ray air showers. LOPES is co-located and triggered by the KASCADE (KArlsruhe Shower Core and Array DEtector) experiment, which also provides information on air shower properties such as electron and muon numbers on the ground, as well as the arrival direction. Radio emission of nearly vertical cosmic ray air showers has been detected by LOPES. Results: LOPES-10 (the first phase of LOPES, consisting of 10 antennas) detected a significant number of cosmic ray air showers with a zenith angle larger than 50°, and many of these have very high radio field strengths. The most inclined event that has been detected with LOPES-10 has a zenith angle of almost 80°. This is proof that the new technique is also applicable for cosmic ray air showers with high inclinations, which in the case that they are initiated close to the ground, can be a signature of neutrino events. Conclusions: .Our results indicate that arrays of simple radio antennas can be used for the detection of highly inclined air showers, which might be triggered by neutrinos. In addition, we found that the radio pulse height (normalized with the muon number) for highly inclined events increases with the geomagnetic angle, which confirms the geomagnetic origin of radio emission in cosmic ray air showers.

Published

2007

2. The Primary Proton Spectrum of Cosmic Rays Measured with Single Hadrons at Ground Level

Author

T. Antoni, W. D. Apel, F. Badea, K. Bekk, A. Bercuci, H. Blumer, H. Bozdog, I. M. Brancus, C. Buttner, A. Chilingarian, K. Daumiller, P. Doll, R. Engel, J. Engler, F. Fesler, H. J. Gils, R. Glasstetter, A. Haungs, D. Heck, J. R. Horandel, K.‐H. Kampert, H. O. Klages, G. Maier, H. J. Mathes, H. J. Mayer, J. Milke, M. Muller, R. Obenland, J. Oehlschlager, S. Ostapchenko, M. Petcu, H. Rebel, A. Risse, M. Risse, M. Roth, G. Schatz, H. Schieler, J. Scholz, T. Thouw, H. Ulrich, J. van Buren, A. Vardanyan, A. Weindl, J. Wochele, and J. Zabierowski

Subjects

Physics, Proton, Calorimeter (particle physics), Astrophysics::High Energy Astrophysical Phenomena, Hadron, Flux, Astronomy and Astrophysics, Cosmic ray, Astrophysics, Power law, Nuclear physics, Atmosphere, KASCADE, Space and Planetary Science, High Energy Physics::Experiment

Abstract

The flux of cosmic-ray induced single hadrons near sea level has been measured with the large hadron calorimeter of the KASCADE experiment. The measurement corroborates former results obtained with detectors of smaller size if the enlarged veto of the 304 m^2 calorimeter surface is encounted for. The program CORSIKA/QGSJET is used to compute the cosmic-ray flux above the atmosphere. Between E_0=300 GeV and 1 PeV the primary proton spectrum can be described with a power law parametrized as dJ/dE_0=(0.15+-0.03)*E_0^{-2.78+-0.03} m^-2 s^-1 sr^-1 TeV^-1. In the TeV region the proton flux compares well with the results from recent measurements of direct experiments.

Published

2004

3. Primary energy reconstruction from the charged particle densities recorded at 500 m distance from shower core with the KASCADE-Grande detector

Author

G. Toma, W. D. Apel, J. C. Arteaga, K. Bekk, M. Bertaina, J. Blümer, H. Bozdog, I. M. Brâncuş, P. Buchholz, E. Cantoni, A. Chiavassa, F. Cossavella, K. Daumiller, V. de Souza, F. Di Pierro, P. Doll, R. Engel, J. Engler, M. Finger, D. Fuhrmann, P. L. Ghia, H. J. Gils, R. Glasstetter, C. Grupen, A. Haungs, D. Heck, J. R. Hörandel, T. Huege, P. G. Isar, K.-H. Kampert, D. Kang, D. Kickelbick, H. O. Klages, K. Link, P. Łuczak, M. Ludwig, H. J. Mathes, H. J. Mayer, M. Melissas, J. Milke, B. Mitrică, C. Morello, G. Navarra, S. Nehls, J. Oehlschläger, S. Ostapchenko, S. Over, N. Palmieri, M. Petcu, T. Pierog, H. Rebel, M. Roth, H. Schieler, F. G. Schröder, O. Sima, G. C. Trinchero, H. Ulrich, A. Weindl, J. Wochele, M. Wommer, and J. Zabierowski

Subjects

Physics, Physics and Astronomy (miscellaneous), Physics::Instrumentation and Detectors, Plane (geometry), Astronomy, Astrophysics::High Energy Astrophysical Phenomena, Detector, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy and Astrophysics, Cosmic ray, Observable, Charged particle, Core (optical fiber), Nuclear physics, KASCADE, Primary (astronomy), GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)

Abstract

Previous EAS investigations have shown that for a fixed primary energy the charged particle density becomes independent of the primary mass at certain (fixed) distances from the shower axis. This feature can be used as an estima- tor for the primary energy. We present results on the recon- struction of the primary energy spectrum of cosmic rays from the experimentally recorded S(500) observable (the density of charged particles at a distance of 500 m to the shower core as measured in a plane normal to the shower axis) using the KASCADE-Grande detector array. The KASCADE-Grande experiment is hosted by the Karlsruhe Institute for Technol- ogy - Campus North, Karlsruhe, Germany, 110 m a.s.l. and

Published

2011

4. The KASCADE-Grande experiment

Author

J Blümer, W D Apel, J C Arteaga, F Badea, K Bekk, M Bertaina, H Bozdog, I M Brancus, M Brüggemann, P Buchholz, A Chiavassa, E Cantoni, F Cossavella, K Daumiller, V de Souza, F Di Pierro, P Doll, R Engel, J Engler, M Finger, D Fuhrmann, P L Ghia, H J Gils, R Glasstetter, C Grupen, A Haungs, D Heck, J R Hörandel, T Huege, P G Isar, K-H Kampert, D Kickelbick, H O Klages, Y Kolotaev, P Luczak, H J Mathes, H J Mayer, C Meurer, J Milke, B Mitrica, A Morales, C Morello, G Navarra, S Nehls, J Oehlschläger, S Ostapchenko, S Over, M Petcu, T Pierog, S Plewnia, H Rebel, M Roth, H Schieler, O Sima, M Stümpert, G Toma, G C Trinchero, H Ulrich, J van Buren, W Walkowiak, A Weindl, J Wochele, J Zabierowski, and The KASCADE-Grande Collaboration

Subjects

Physics, History, Nuclear and High Energy Physics, Muon, Physics::Instrumentation and Detectors, Astronomy, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Instrumentation and Methods for Astrophysics, Cosmic ray, ENERGIA, Computer Science Applications, Education, Nuclear physics, Air shower, Rigidity (electromagnetism), Data acquisition, KASCADE, Scintillation counter, Energy spectrum, Ultra-high-energy cosmic ray, Instrumentation

Abstract

The KASCADE-Grande experiment measures extensive air showers induced by primary cosmic rays in the energy range 1014 – 1018 eV. The major motivation for KASCADE-Grande is the investigation of the so called ”knee” in the energy spectrum of cosmic rays and its presumed rigidity dependence. A short overview of the experimental setup with focus on the Grande array and its new data acquisition system is given. As an example of analysis the reconstruction of the total muon number is presented.

Published

2010

5. Restoring The Azimuthal Symmetry Of Charged Particle Lateral Density In The Range Of KASCADE-Grande

Author

O. Sima, H. Rebel, W. D. Apel, J. C. Arteaga, K. Bekk, M. Bertaina, J. Blümer, H. Bozdog, I. M. Brancus, P. Buchholz, E. Cantoni, A. Chiavassa, F. Cossavella, K. Daumiller, V. de Souza, F. di Pierro, P. Doll, R. Engel, J. Engler, M. Finger, D. Fuhrmann, P. L. Ghia, H. J. Gils, R. Glasstetter, C. Grupen, A. Haungs, D. Heck, J. R. Hörandel, T. Huege, P. G. Isar, K.-H. Kampert, D. Kang, D. Kickelbick, H. O. Klages, K. Link, P. Łuczak, M. Ludwig, H. J. Mathes, H. J. Mayer, M. Melissas, J. Milke, B. Mitrica, C. Morello, G. Navarra, S. Nehls, J. Oehlschläger, S. Ostapchenko, S. Over, N. Palmieri, M. Petcu, T. Pierog, M. Roth, H. Schieler, F. G. Schröder, G. Toma, G. C. Trinchero, H. Ulrich, A. Weindl, J. Wochele, M. Wommer, J. Zabierowski, Livius Trache, Alexei Smirnov, and Sabin Stoica

Subjects

Physics, Nuclear physics, Azimuth, Range (particle radiation), Air shower, KASCADE, Physics::Instrumentation and Detectors, Plane (geometry), Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Instrumentation and Methods for Astrophysics, Observable, Charged particle, Symmetry (physics)

Abstract

KASCADE‐Grande, an extension of the former KASCADE experiment, is a multi‐component Extensive Air Shower (EAS) experiment located in Karlsruhe Institute of Technology (Campus North), Germany. An important observable for analyzing the EAS is the lateral density of charged particles in the intrinsic shower plane. This observable is deduced from the basic information provided by the Grande scintillators—the energy deposit—first in the observation plane, by using a Lateral Energy Correction Function (LECF), then in the intrinsic shower plane, by applying an adequate mapping procedure. In both steps azimuthal.

Published

2010

6. Test of the hadronic interaction model EPOS with air shower data

Author

W D Apel, J C Arteaga, F Badea, K Bekk, M Bertaina, J Blümer, H Bozdog, I M Brancus, M Brüggemann, P Buchholz, E Cantoni, A Chiavassa, F Cossavella, K Daumiller, V de Souza, F Di Pierro, P Doll, R Engel, J Engler, M Finger, D Fuhrmann, P L Ghia, H J Gils, R Glasstetter, C Grupen, A Haungs, D Heck, J R Hörandel, T Huege, P G Isar, K-H Kampert, D Kang, D Kickelbick, H O Klages, Y Kolotaev, P Luczak, H J Mathes, H J Mayer, J Milke, B Mitrica, C Morello, G Navarra, S Nehls, J Oehlschläger, S Ostapchenko, S Over, M Petcu, T Pierog, H Rebel, M Roth, H Schieler, F Schröder, O Sima, M Stümpert, G Toma, G C Trinchero, H Ulrich, J van Buren, W Walkowiak, A Weindl, J Wochele, M Wommer, and J Zabierowski

Subjects

Physics, Nuclear physics, Nuclear and High Energy Physics, Air shower, KASCADE, PARTÍCULAS ELEMENTARES, Quantitative Biology::Tissues and Organs, Astrophysics::High Energy Astrophysical Phenomena, Hadron, Astrophysics::Instrumentation and Methods for Astrophysics, Interaction model, High Energy Physics::Experiment, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Predictions of the hadronic interaction model EPOS~1.61 as implemented in the air shower simulation program CORSIKA are compared to observations with the KASCADE experiment. The investigations reveal that the predictions of EPOS are not compatible with KASCADE measurements. The discrepancies seen are most likely due to use of a set of inelastic hadronic cross sections that are too high., Comment: Journal of Physics G in press

Published

2009

7. New method to measure the attenuation of hadrons in extensive air showers

Author

W. D. Apel, J. C. Arteaga, F. Badea, K. Bekk, M. Bertaina, J. Blümer, H. Bozdog, I. M. Brancus, M. Brüggemann, P. Buchholz, E. Cantoni, A. Chiavassa, F. Cossavella, K. Daumiller, V. de Souza, F. Di Pierro, P. Doll, R. Engel, J. Engler, M. Finger, D. Fuhrmann, P. L. Ghia, H. J. Gils, R. Glasstetter, C. Grupen, A. Haungs, D. Heck, D. Hildebrand, J. R. Hörandel, T. Huege, P. G. Isar, K.-H. Kampert, D. Kang, D. Kickelbick, H. O. Klages, Y. Kolotaev, P. Łuczak, H. J. Mathes, H. J. Mayer, J. Milke, B. Mitrica, C. Morello, G. Navarra, S. Nehls, J. Oehlschläger, S. Ostapchenko, S. Over, M. Petcu, T. Pierog, H. Rebel, M. Roth, H. Schieler, F. Schröder, O. Sima, M. Stümpert, G. Toma, G. C. Trinchero, H. Ulrich, J. van Buren, W. Walkowiak, A. Weindl, J. Wochele, M. Wommer, and J. Zabierowski

Subjects

Physics, High Energy Astrophysical Phenomena (astro-ph.HE), Nuclear and High Energy Physics, Range (particle radiation), Muon, Physics::Instrumentation and Detectors, Attenuation, Astrophysics::High Energy Astrophysical Phenomena, Hadron, Attenuation length, FOS: Physical sciences, Cosmic ray, ENERGIA, Nuclear physics, KASCADE, High Energy Physics::Experiment, Astrophysics - High Energy Astrophysical Phenomena, Nuclear Experiment, Energy (signal processing)

Abstract

Extensive air showers are generated through interactions of high-energy cosmic rays impinging the Earth's atmosphere. A new method is described to infer the attenuation of hadrons in air showers. The numbers of electrons and muons, registered with the scintillator array of the KASCADE experiment are used to estimate the energy of the shower inducing primary particle. A large hadron calorimeter is used to measure the hadronic energy reaching observation level. The ratio of energy reaching ground level to the energy of the primary particle is used to derive an attenuation length of hadrons in air showers. In the energy range from $10^6$ GeV to $3\cdot10^7$ GeV the attenuation length obtained increases from 170 \gcm2 to 210 \gcm2. The experimental results are compared to predictions of simulations based on contemporary high energy interaction models., Comment: accepted for publication in Physical Review D

Published

2009

8. Frequency spectra of cosmic ray air shower radio emission measured with LOPES

Author

A. Nigl, W. D. Apel, J. C. Arteaga, T. Asch, J. Auffenberg, F. Badea, L. Bähren, K. Bekk, M. Bertaina, P. L. Biermann, J. Blümer, H. Bozdog, I. M. Brancus, M. Brüggemann, P. Buchholz, S. Buitink, H. Butcher, E. Cantoni, A. Chiavassa, F. Cossavella, K. Daumiller, V. de Souza, F. Di Pierro, P. Doll, R. Engel, H. Falcke, H. Gemmeke, P. L. Ghia, R. Glasstetter, C. Grupen, A. Haungs, D. Heck, J. R. Hörandel, A. Horneffer, T. Huege, P. G. Isar, K.-H. Kampert, D. Kickelbick, Y. Kolotaev, O. Krömer, J. Kuijpers, S. Lafebre, P. Łuczak, M. Manewald, H. J. Mathes, H. J. Mayer, C. Meurer, B. Mitrica, C. Morello, G. Navarra, S. Nehls, J. Oehlschläger, S. Ostapchenko, S. Over, M. Petcu, T. Pierog, J. Rautenberg, H. Rebel, M. Roth, A. Saftoiu, H. Schieler, A. Schmidt, F. Schröder, O. Sima, K. Singh, M. Stümpert, G. Toma, G. C. Trinchero, H. Ulrich, J. van Buren, W. Walkowiak, A. Weindl, J. Wochele, J. Zabierowski, and J. A. Zensus

Subjects

Physics, LOPES, Frequency band, Astrophysics::High Energy Astrophysical Phenomena, Astronomy, Astrophysics (astro-ph), Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Astronomy and Astrophysics, Cosmic ray, Astrophysics, LOFAR, Astrophysics::Cosmology and Extragalactic Astrophysics, Spectral line, Air shower, KASCADE, Space and Planetary Science, Spectral slope

Abstract

AIMS: We wish to study the spectral dependence of the radio emission from cosmic-ray air showers around 100 PeV (1017 eV). METHODS: We observe short radio pulses in a broad frequency band with the dipole-interferometer LOPES (LOFAR Prototype Station), which is triggered by a particle detector array named Karlsruhe Shower Core and Array Detector (KASCADE). LOFAR is the Low Frequency Array. For this analysis, 23 strong air shower events are selected using parameters from KASCADE. RESULTS: The resulting electric field spectra fall off to higher frequencies. An average electric field spectrum is fitted with an exponential, or alternatively, with a power law. The spectral slope obtained is not consistent within uncertainties and it is slightly steeper than the slope obtained from Monte Carlo simulations based on air showers simulated with CORSIKA (Cosmic Ray Simulations for KASCADE). One of the strongest events was measured during thunderstorm activity in the vicinity of LOPES and shows the longest pulse length measured of 110 ns and a spectral slope of -3.6. CONCLUSIONS: We show with two different methods that frequency spectra from air shower radio emission can be reconstructed on event-by-event basis, with only two dozen dipole antennae simultaneously over a broad range of frequencies. According to the obtained spectral slopes, the maximum power is emitted below 40 MHz. Furthermore, the decrease in power to higher frequencies indicates a loss in coherence determined by the shower disc thickness. We conclude that a broader bandwidth, larger collecting area, and longer baselines, as will be provided by LOFAR, are necessary to further investigate the relation of the coherence, pulse length, and spectral slope of cosmic ray air showers., Comment: 13 pages, 21 figures. Nigl, A. et al. (LOPES Collaboration), Frequency spectra of cosmic ray air shower radio emission measured with LOPES, accepted by A&A on 17/06/2008

Published

2008

9. Direction identification in radio images of cosmic-ray air showers detected with LOPES and KASCADE

Author

A. Nigl, W. D. Apel, J. C. Arteaga, T. Asch, J. Auffenberg, F. Badea, L. Bähren, K. Bekk, M. Bertaina, P. L. Biermann, J. Blümer, H. Bozdog, I. M. Brancus, M. Brüggemann, P. Buchholz, S. Buitink, H. Butcher, E. Cantoni, A. Chiavassa, F. Cossavella, K. Daumiller, V. de Souza, F. Di Pierro, P. Doll, R. Engel, H. Falcke, H. Gemmeke, P. L. Ghia, R. Glasstetter, C. Grupen, A. Haungs, D. Heck, J. R. Hörandel, A. Horneffer, T. Huege, P. G. Isar, K.-H. Kampert, D. Kickelbick, Y. Kolotaev, O. Krömer, J. Kuijpers, S. Lafebre, P. Łuczak, M. Manewald, H. J. Mathes, H. J. Mayer, C. Meurer, B. Mitrica, C. Morello, G. Navarra, S. Nehls, J. Oehlschläger, S. Ostapchenko, S. Over, M. Petcu, T. Pierog, J. Rautenberg, H. Rebel, M. Roth, A. Saftoiu, H. Schieler, A. Schmidt, F. Schröder, O. Sima, K. Singh, M. Stümpert, G. Toma, G. C. Trinchero, H. Ulrich, J. van Buren, W. Walkowiak, A. Weindl, J. Wochele, J. Zabierowski, and J. A. Zensus

Subjects

Physics, LOPES, Astronomy, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics (astro-ph), Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Astronomy and Astrophysics, Cosmic ray, Astrophysics, Radius, Astrophysics::Cosmology and Extragalactic Astrophysics, Curvature, Particle detector, Air shower, KASCADE, Space and Planetary Science, Angular resolution

Abstract

AIMS: We want to understand the emission mechanism of radio emission from air showers to determine the origin of high-energy cosmic rays. Therefore, we study the geometry of the air shower radio emission measured with LOPES and search for systematic effects between the direction determined on the radio signal and the direction provided by the particle detector array KASCADE. METHODS: We produce 4D radio images on time-scales of nanoseconds using digital beam-forming. Each pixel of the image is calculated for three spatial dimensions and as a function of time. The third spatial dimension is obtained by calculating the beam focus for a range of curvature radii fitted to the signal wave front. We search this multi-dimensional parameter space for the direction of maximum coherence of the air shower radio signal and compare it to the direction provided by KASCADE. RESULTS: The maximum radio emission of air showers is obtained for curvature radii being larger than 3 km. We find that the direction of the emission maximum can change when optimizing the curvature radius. Furthermore, we find a tentative increase of the curvature radius to lower elevations, where the air showers pass through a larger atmospheric depth. CONCLUSIONS: We conclude that the angular resolution of LOPES is sufficient to determine the direction which maximizes the observed electric field amplitude. However, the statistical uncertainty of the directions is not determined by the resolution of LOPES, but by the uncertainty of the curvature radius. We do not find any systematic deviation between the directions determined from the radio signal and from the detected particles. This result places a strong supportive argument for the use of the radio technique to study the origin of high-energy cosmic rays., Comment: 8 pages, 13 figures. Nigl, A. et al. (LOPES Collaboration), Direction identification in radio images of cosmic rays detected with LOPES and KASCADE, accepted by A&A on 12/06/2008

Published

2008

10. Radio emission in atmospheric air showers: Results of LOPES-10

Author

A Haungs, W D Apel, T Asch, F Badea, L Bähren, K Bekk, A Bercuci, M Bertaina, P L Biermann, J Blümer, H Bozdog, I M Brancus, M Brüggemann, P Buchholz, S Buitink, H Butcher, A Chiavassa, F Cossavella, K Daumiller, F Di Pierro, P Doll, R Engel, H Falcke, H Gemmeke, P L Ghia, R Glasstetter, C Grupen, A Hakenjos, D Heck, J R Hörandel, A Horneffer, T Huege, P G Isar, K H Kampert, Y Kolotaev, O Krömer, J Kuijpers, S Lafebre, H J Mathes, H J Mayer, C Meurer, J Milke, B Mitrica, C Morello, G Navarra, S Nehls, A Nigl, R Obenland, J Oehlschläger, S Ostapchenko, S Over, M Petcu, J Petrovic, T Pierog, S Plewnia, H Rebel, A Risse, M Roth, H Schieler, O Sima, K Singh, M Stümpert, G Toma, G C Trinchero, H Ulrich, J van Buren, W Walkowiak, A Weindl, J Wochele, J Zabierowski, J A Zensus, and D Zimmermann

Subjects

Atmospheric air, Physics, History, Meteorology, LOPES, Astronomy, Astrophysics (astro-ph), Measure (physics), FOS: Physical sciences, Astrophysics, Computer Science Applications, Education, Shower, Air shower

Abstract

LOPES is set up at the location of the KASCADE-Grande extensive air shower experiment in Karlsruhe, Germany and aims to measure and investigate radio pulses from Extensive Air Showers. Data taken during half a year of operation of 10 LOPES antennas (LOPES-10), triggered by showers observed with KASCADE-Grande have been analyzed. We report about results of correlations found of the measured radio signals by LOPES-10 with shower parameters., Comment: Proceedings of ARENA 06, June 2006, University of Northumbria, UK

Published

2007

11. Radio Emission in Atmospheric Air Showers: First Measurements with LOPES-30

Author

P G Isar, S Nehls, W D Apel, T Asch, F Badea, L Bähren, K Bekk, A Bercuci, M Bertaina, P L Biermann, J Blümer, H Bozdog, I M Brancus, M Brüggemann, P Buchholz, S Buitink, H Butcher, A Chiavassa, F Cossavella, K Daumiller, F Di Pierro, P Doll, R Engel, H Falcke, H Gemmeke, P L Ghia, R Glasstetter, C Grupen, A Hakenjos, A Haungs, D Heck, J R Hörandel, A Horneffer, T Huege, K H Kampert, Y Kolotaev, O Krömer, J Kuijpers, S Lafebre, H J Mathes, H J Mayer, C Meurer, J Milke, B Mitrica, C Morello, G Navarra, A Nigl, R Obenland, J Oehlschläger, S Ostapchenko, S Over, M Petcu, J Petrovic, T Pierog, S Plewnia, H Rebel, A Risse, M Roth, H Schieler, O Sima, K Singh, M Stümpert, G Toma, G C Trinchero, H Ulrich, J van Buren, W Walkowiak, A Weindl, J Wochele, J Zabierowski, J A Zensus, and D Zimmermann

Subjects

Atmospheric air, Physics, History, LOPES, Astrophysics::High Energy Astrophysical Phenomena, Astronomy, Astrophysics (astro-ph), Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Astrophysics, Computer Science Applications, Education, law.invention, Atmosphere, Shower, Air shower, law, Ultra-high-energy cosmic ray, Dipole antenna

Abstract

When Ultra High Energy Cosmic Rays interact with particles in the Earth's atmosphere, they produce a shower of secondary particles propagating toward the ground. LOPES-30 is an absolutely calibrated array of 30 dipole antennas investigating the radio emission from these showers in detail and clarifying if the technique is useful for largescale applications. LOPES-30 is co-located and measures in coincidence with the air shower experiment KASCADE-Grande. Status of LOPES-30 and first measurements are presented., Comment: Proceedings of ARENA 06, June 2006, University of Northumbria, UK

Published

2007

12. Absolute Calibration of the Lopes Antenna System

Author

S. NEHLS, W. D. APEL, F. BADEA, L. BÄHREN, K. BEKK, A. BERCUCI, M. BERTAINA, P. L. BIERMANN, J. BLÜMER, H. BOZDOG, I. M. BRANCUS, M. BRÜGGEMANN, P. BUCHHOLZ, S. BUITINK, H. BUTCHER, A. CHIAVASSA, K. DAUMILLER, A. G. de BRUYN, C. M. de VOS, F. di PIERRO, P. DOLL, R. ENGEL, H. FALCKE, H. GEMMEKE, P. L. GHIA, R. GLASSTETTER, C. GRUPEN, A. HAKENJOS, A. HAUNGS, D. HECK, J. R. HÖRANDEL, A. HORNEFFER, T. HUEGE, K.-H. KAMPERT, G. W. KANT, U. KLEIN, Y. KOLOTAEV, Y. KOOPMAN, O. KRÖMER, J. KUIJPERS, S. LAFEBRE, G. MAIER, H. J. MATHES, H. J. MAYER, J. MILKE, B. MITRICA, C. MORELLO, G. NAVARRA, A. NIGL, R. OBENLAND, J. OEHLSCHLÄGER, S. OSTAPCHENKO, S. OVER, H. J. PEPPING, M. PETCU, J. PETROVIC, T. PIEROG, S. PLEWNIA, H. REBEL, A. RISSE, M. ROTH, H. SCHIELER, G. SCHOONDERBEEK, O. SIMA, M. STÜMPERT, G. TOMA, G. C. TRINCHERO, H. ULRICH, J. VAN BUREN, W. VAN CAPELLEN, W. WALKOWIAK, A. WEINDL, S. WIJNHOLDS, J. WOCHELE, J. ZABIEROWSKI, J. A. ZENSUS, and D. ZIMMERMANN

Subjects

Physics, Nuclear and High Energy Physics, LOPES, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Astronomy, Astrophysics (astro-ph), Astrophysics::Instrumentation and Methods for Astrophysics, Pulse duration, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Amplification factor, Atomic and Molecular Physics, and Optics, Optics, Earth's magnetic field, Electric field, Calibration, Ultra-high-energy cosmic ray, Antenna (radio), business

Abstract

Radio emission in extensive air showers arises from an interaction with the geomagnetic field and is subject of theoretical studies. This radio emission has advantages for the detection of high energy cosmic rays compared to secondary particle or fluorescence measurement methods. Radio antennas like the LOPES30 antenna system are suited to investigate this emission process by detecting the radio pulses. The characteristic observable parameters like electric field strength and pulse length require a calibration which was done with a reference radio source resulting in an amplification factor representing the system behavior in the environment of the KASCADE-Grande experiment. Knowing the amplification factor and the gain of the LOPES antennas LOPES30 is calibrated absolutely for systematic analyses of the radio emission., Comment: 5 pages, Proceedings of International Workshop on Acoustic and Radio EeV Neutrino detection Activities: ARENA, May 17-19, 2005, DESY Zeuthen

Published

2006

13. Test of Hadronic Interaction Models in the Forward Region with KASCADE Event Rates

Author

T Antoni, W D Apel, F Badea, K Bekk, A Bercuci, K Bernlöhr, H Blümer, E Bollmann, H Bozdog, I M Brancus, C Büttner, A Chilingarian, K Daumiller, P Doll, J Engler, F Feßler, H J Gils, R Glasstetter, R Haeusler, A Haungs, D Heck, J R Hörandel, T Holst, A Iwan, K-H Kampert, J Kempa, H O Klages, J Knapp, G Maier, H J Mathes, H J Mayer, J Milke, M Müller, J Oehlschläger, S S Ostapchenko, M Petcu, H Rebel, M Risse, M Roth, G Schatz, H Schieler, J Scholz, T Thouw, H Ulrich, J Unger, B Vulpescu, J H Weber, J Wentz, J Wochele, J Zabierowski, and S Zagromski

Subjects

Diffraction, Physics, Nuclear and High Energy Physics, Muon, biology, Astrophysics (astro-ph), Hadron, Nuclear Theory, FOS: Physical sciences, Venus, Interaction model, Astrophysics, biology.organism_classification, Spectral line, Nuclear physics, Pion, KASCADE, High Energy Physics::Experiment, Nuclear Experiment

Abstract

An analysis of muon and hadron rates observed in the central detector of the KASCADE experiment has been carried out. The data are compared to CORSIKA simulations employing the high-energy hadronic interaction models QGSJET, DPMJET, HDPM, SIBYLL, and VENUS. In addition, first results with the new hadronic interaction model neXus 2 are discussed. Differences of the model predictions, both among each other and when confronted with measurements, are observed. The hadron rates mainly depend on the inelastic cross-section and on the contribution of diffraction dissociation. The discrepancy between simulations and measurements at low primary energies around 5 TeV can be reduced by increasing the non-diffractive part of the inelastic cross-section of nucleon-air interactions. Examination of hadron multiplicities points towards harder spectra of secondary pions and kaons needed in the calculations., 14 pages, 7 figures, corresponding author: M. Risse, accepted for publication in J. Phys. G: Nucl. Part. Phys

Published

2001

14. Air shower radio detection with LOPES

Author

J Blümer, W D Apel, J C Arteaga, T Asch, J Auffenberg, F Badea, L Bähren, K Bekk, M Bertaina, P L Biermann, H Bozdog, I M Brancus, M Brüggemann, P Buchholz, S Buitink, H Butcher, A Chiavassa, F Cossavella, K Daumiller, V de Souza, F Di Pierro, P Doll, R Engel, H Falcke, H Gemmeke, P L Ghia, R Glasstetter, C Grupen, A Haungs, D Heck, J R Hörandel, A Horneffer, T Huege, P G Isar, K-H Kampert, D Kickelbick, Y Kolotaev, O Krömer, J Kuijpers, S Lafebre, P Luczak, H J Mathes, H J Mayer, C Meurer, J Milke, B Mitrica, C Morello, G Navarra, S Nehls, A Nigl, J Oehlschläger, S Ostapchenko, S Over, M Petcu, J Petrovic, T Pierog, S Plewnia, J Rautenberg, H Rebel, M Roth, A Saftoiu, H Schieler, O Sima, K Singh, M Stümpert, G Toma, G C Trinchero, H Ulrich, J van Buren, W Walkowiak, A Weindl, J Wochele, J Zabierowski, J A Zensus, and the LOPES Collaboration

Subjects

Physics, History, Data processing, LOPES, business.industry, Detector, Electrical engineering, Digital radio, Computer Science Applications, Education, Interferometry, Air shower, High bandwidth, business, Radio detection

Abstract

LOPES is an array of 30 radio antenna co-located with the KASCADE-Grande extensive air shower detector in Karlsruhe, Germany. It is designed as a digital radio interferometer for the detection of radio emission from extensive air showers. LOPES features high bandwidth and fast data processing. A unique asset is the concurrent operation with KASCADE-Grande. We report about the progress in understanding the radio signals measured by LOPES. In addition, the status and further perspectives of LOPES and the large scale application of this novel detection technique are sketched.

Published

2008

15. Primary Energy Reconstruction from the Charged Particle Densities Recorded with the KASCADE-Grande Detector at 500 m Distance from Shower Core

Author

G. Toma, W. D. Apel, J. C. Arteaga, K. Bekk, M. Bertaina, J. Blümer, H. Bozdog, I. M. Brancus, P. Buchholz, E. Cantoni, A. Chiavassa, F. Cossavella, K. Daumiller, V. de Souza, F. Di Pierro, P. Doll, R. Engel, J. Engler, M. Finger, D. Fuhrmann, P. L. Ghia, H. J. Gils, R. Glasstetter, C. Grupen, A. Haungs, D. Heck, J. R. Hörandel, T. Huege, P. G. Isar, K.-H. Kampert, D. Kang, D. Kickelbick, H. O. Klages, K. Link, P. Łuczak, M. Ludwig, H. J. Mathes, H. J. Mayer, M. Melissas, J. Milke, B. Mitrica, C. Morello, G. Navarra, S. Nehls, J. Oehlschläger, S. Ostapchenko, S. Over, N. Palmieri, M. Petcu, T. Pierog, H. Rebel, M. Roth, H. Schieler, F. Schröder, O. Sima, G. C. Trinchero, H. Ulrich, A. Weindl, J. Wochele, M. Wommer, J. Zabierowski, Livius Trache, Alexei Smirnov, and Sabin Stoica

Subjects

Core (optical fiber), Physics, Nuclear physics, Range (particle radiation), KASCADE, Astrophysics::High Energy Astrophysical Phenomena, Detector, Astrophysics::Instrumentation and Methods for Astrophysics, Energy level, Cosmic ray, Zenith, Charged particle

Abstract

Previous EAS investigations have shown that for a fixed primary energy the charged particle density becomes independent of the primary mass at certain (fixed) distances from the shower core. This feature can be used as an estimator for the primary energy. We present results on the reconstruction of the primary energy spectrum of cosmic rays from the experimentally recorded S(500) observable (the density of charged particles at 500 m distance to the shower core) using the KASCADE‐Grande detector array. The KASCADE‐Grande experiment is hosted by the Karlsruhe Institute for Technology—Campus North, Karlsruhe, Germany, and operated by an international collaboration. The constant intensity cut (CIC) method is applied to evaluate the attenuation of the S(500) observable with the zenith angle and is corrected for. A calibration of S(500) values with the primary energy has been worked out by simulations and was applied to the data to obtain the primary energy spectrum (in the energy range log10[E0/GeV]∈[7.5,9]). ...

16. Test and analysis of hadronic interaction models with KASCADE event rates

Author

W. Hafemann, T. Antoni, J.R. Hörandel, J. Knapp, H. Bozdog, W.D. Apel, D. Martello, G. Schatz, E. Bollmann, H. J. Gils, Markus Roth, J. Milke, H. Ulrich, J. Engler, J. Wochele, J. Kempa, J.H. Weber, D. Heck, S. Zagromski, P. Matussek, A. Vardanyan, J. Oehlschläger, R. Haeusler, Ashot Chilingarian, J. Wentz, K. Bernlöhr, H.J. Mayer, F. Feßler, H.O. Klages, B. Vulpescu, J. Zabierowski, T. Thouw, M. Risse, P. Doll, H. Blümer, T. Wiegert, Hermann-Josef Mathes, R. Glasstetter, H. Rebel, Kai Daumiller, Karl-Heinz Kampert, M. Petcu, K. Bekk, T. Holst, F. Badea, C. Büttner, D. Mühlenberg, A. Haungs, I.M. Brancus, M., Risse, T., Antoni, W. D., Apel, F., Badea, K., Bekk, K., Bernlohr, H., Blumer, E., Bollmann, H., Bozdog, I. M., Brancu, C., Buttner, A., Chilingarian, K., Daumiller, P., Doll, J., Engler, F., Fessler, H. J., Gil, R., Glasstetter, R., Haeusler, W., Hafemann, A., Haung, D., Heck, J. R., Horandel, T., Holst, K. H., Kampert, J., Kempa, H. O., Klage, J., Knapp, Martello, Daniele, H. J., Mathe, P., Matussek, H. J., Mayer, J., Milke, D., Muhlenberg, J., Oehlschlager, M., Petcu, H., Rebel, M., Roth, G., Schatz, T., Thouw, H., Ulrich, A., Vardanyan, B., Vulpescu, J. H., Weber, J., Wentz, T., Wiegert, J., Wochele, J., Zabierowski, and S., Zagromski

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Particle physics, KASCADE, biology, Hadron, High Energy Physics::Experiment, Venus, Elasticity (economics), biology.organism_classification, Atomic and Molecular Physics, and Optics, Hadron calorimeter

Abstract

Based on the KASCADE multi-detector system with its large hadron calorimeter and using the CORSIKA simulation program with the implemented high-energy hadronic interaction models QGSJET, VENUS, DPMJET, SIBYLL, and HDPM, a method for the test of models by comparing el ent rates is described. Preliminary results show differences of the model predictions both among each other and when confronted with measurements. The rates are strongly influenced by the inelastic cross sections and the elasticity, especially by the contribution of diffractive dissociation. The discrepancy to measurements at primary energies below similar or equal to 3 (.) 10(13) eV can be reduced by increasing the non-diffractive inelastic cross section.

Published

2001

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

Author

T Antoni, W.D Apel, F Badea, K Bekk, K Bernlöhr, H Blümer, E Bollmann, H Bozdog, I.M Brancus, A Chilingarian, K Daumiller, P Doll, J Engler, F Feßler, H.J Gils, R Glasstetter, R Haeusler, W Hafemann, A Haungs, D Heck, T Holst, J.R Hörandel, K.-H Kampert, J Kempa, H.O Klages, J Knapp, D Martello, H.J Mathes, H.J Mayer, J Milke, D Mühlenberg, J Oehlschläger, M Petcu, H Rebel, M Risse, M Roth, G Schatz, F.K Schmidt, T Thouw, H Ulrich, A Vardanyan, B Vulpescu, J.H Weber, J Wentz, T Wiegert, J Wochele, J Zabierowski, T., Antoni, W. D., Apel, F., Badea, K., Bekk, K., Bernlohr, H., Blumer, E., Bollmann, H., Bozdog, I. M., Brancu, A., Chilingarian, K., Daumiller, P., Doll, J., Engler, F., Fessler, H. J., Gil, R., Glasstetter, R., Haeusler, W., Hafemann, A., Haung, D., Heck, T., Holst, J. R., Horandel, K. H., Kampert, J., Kempa, H. O., Klage, J., Knapp, Martello, Daniele, H. J., Mathe, H. J., Mayer, J., Milke, D., Muhlenberg, J., Oehlschlager, M., Petcu, H., Rebel, M., Risse, M., Roth, G., Schatz, F. K., Schmidt, T., Thouw, H., Ulrich, A., Vardanyan, B., Vulpescu, J. H., Weber, J., Wentz, T., Wiegert, J., Wochele, and J., Zabierowski

Subjects

Physics, Range (particle radiation), Muon, Hadron, Astrophysics (astro-ph), Inner core, FOS: Physical sciences, Astronomy and Astrophysics, Electron, Astrophysics, Nuclear physics, KASCADE, Particle, High Energy Physics::Experiment, Zenith

Abstract

Measurements of electron, muon, and hadron lateral distributions of extensive air showers as recorded by the KASCADE experiment are presented. The data cover the energy range from about 5x10^14 eV up to almost 10^17 eV and extend from the inner core region to distances of 200 m. The electron and muon distributions are corrected for mutual contaminations by taking into account the detector properties in the experiment. All distributions are well described by NKG-functions. The scale radii describing the electron and hadron data best are approx. 30 m and 10 m, respectively. We discuss the correlation between scale radii and `age' parameter as well as their dependence on shower size, zenith angle, and particle energy threshold., Comment: 28 pages, 14 figures, Accepted for publication in Astroparticle Physics

Published

2001

18. Time structure of the extensive air shower muon component measured by the KASCADE experiment

Author

H.J. Gils, D. Mühlenberg, T. Thouw, A. Haungs, E. Bollmann, W. D. Apel, J. Oehlschläger, H. Blümer, R. Haeusler, J. Zabierowski, H. J. Mathes, H. Bozdog, A.F. Badea, J. Wochele, Jörg R. Hörandel, D. Martello, D. Heck, J. Milke, Ashot Chilingarian, J. Wentz, Fabian Schmidt, K. H. Kampert, J. Kempa, Markus Roth, K. Bekk, Konrad Bernlöhr, G. Schatz, J. Engler, H. Rebel, T. Holst, H.J. Mayer, W. Hafemann, J. Knapp, F. Feßler, T. Antoni, H. Ulrich, H.O. Klages, Kai Daumiller, M. Risse, A. Vardanyan, T. Wiegert, P. Doll, M. Petcu, B. Vulpescu, S. Zagromski, R. Glasstetter, J.H. Weber, I.M. Brancus, T., Antoni, W. D., Apel, A. F., Badea, K., Bekk, K., Bernlohr, H., Blumer, E., Bollmann, H., Bozdog, I. M., Brancu, A., Chilingarian, K., Daumiller, P., Doll, J., Engler, F., Fessler, H. J., Gil, R., Glasstetter, R., Haeusler, W., Hafemann, A., Haung, D., Heck, T., Holst, J. R., Horandel, K. H., Kampert, J., Kempa, H. O., Klage, J., Knapp, Martello, Daniele, H. J., Mathe, H. J., Mayer, J., Milke, D., Muhlenberg, J., Oehlschlager, M., Petcu, H., Rebel, M., Risse, M., Roth, G., Schatz, F. K., Schmidt, T., Thouw, H., Ulrich, A., Vardanyan, B., Vulpescu, J. H., Weber, J., Wentz, T., Wiegert, J., Wochele, J., Zabierowski, and S., Zagromski

Subjects

Physics, Muon, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, Detector, Monte Carlo method, Astronomy and Astrophysics, Cosmic ray, Nuclear physics, Air shower, KASCADE, Quartile, Angle of incidence (optics), High Energy Physics::Experiment

Abstract

The temporal structure of the extensive air shower (EAS) muon component (E-thres = 2.4 GeV) is studied at sea level by measurements of the muon arrival time distributions using the muon detection facilities of the KASCADE central detector. Data have been analysed for EAS core distances up to 110 m for primary energies around the knee region. The time structure of the EAS muon component is represented by the distributions of the mean, median, first quartile and the third quartile of the muon arrival time distributions relative to the foremost muon. The EAS time profiles (variation with the distance from the EAS center) are studied along their dependencies on the angle of incidence and the energy-indicative muon number N-mu(tr). Effects of the fluctuation of the arrival time of the first registered muon are scrutinised and corrected. The experimental results are compared with EAS Monte Carlo (CORSIKA-GEANT) simulations, fully including the detector responses and illustrating the phenomenological features. The comparisons, though generally in fair global agreement, revealed that the simulations underestimate the shower thickness and show nearly no dependence on the mass composition if the time resolution of the apparatus is realistically taken into account. (C) 2001 Elsevier Science B.V. All rights reserved.

Published

2001

19. First results of the air shower experiment KASCADE

Author

A. Haungs, T. Antoni, W.D. Apel, F. Badea, K. Bekk, K. Bernlöhr, H. Blümer, E. Bollmann, H. Bozdog, I.M. Brancus, C. Büttner, A. Chilingarian, K. Daumiller, P. Doll, J. Engler, F. Feßler, H.J. Gils, R. Glasstetter, R. Haeusler, W. Hafemann, D. Heck, J.R. Hörandel, T. Holst, K.-H. Kampert, H. Keim, J. Kempa, H.O. Klages, J. Knapp, D. Martello, H.J. Mathes, P. Matussek, H.J. Mayer, J. Milke, D. Mühlenberg, J. Oehlschläger, M. Petcu, H. Rebel, M. Risse, M. Roth, G. Schatz, F.K. Schmidt, T. Thouw, H. Ulrich, A. Vardanyan, B. Vulpescu, J.H. Weber, J. Wentz, T. Wiegert, J. Wochelea, J. Zabierowski, S. Zagromski, A., Haung, T., Antoni, W. D., Apel, F., Badea, K., Bekk, K., Bernlohr, H., Blumer, E., Bollmann, H., Bozdog, I. M., Brancu, C., Buttner, A., Chilingarian, K., Daumiller, P., Doll, J., Engler, F., Fessler, H. J., Gil, R., Glasstetter, R., Haeusler, W., Hafemann, D., Heck, J. R., Horandel, T., Holst, K. H., Kampert, H., Keim, J., Kempa, H. O., Klage, J., Knapp, Martello, Daniele, H. J., Mathe, P., Matussek, H. J., Mayer, J., Milke, D., Muhlenberg, J., Oehlschlager, M., Petcu, H., Rebel, M., Risse, M., Roth, G., Schatz, F. K., Schmidt, T., Thouw, H., Ulrich, A., Vardanyan, B., Vulpescu, J. H., Weber, J., Wentz, T., Wiegert, J., Wochele, J., Zabierowski, and S., Zagromski

Subjects

Physics, Nuclear and High Energy Physics, Elemental composition, Range (particle radiation), Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics (astro-ph), Detector, Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Cosmic ray, Astrophysics, Atomic and Molecular Physics, and Optics, Nuclear physics, Shower, Air shower, KASCADE, Energy spectrum

Abstract

The main goals of the KASCADE (KArlsruhe Shower Core and Array DEtector) experiment are the determination of the energy spectrum and elemental composition of the charged cosmic rays in the energy range around the knee at ca. 5 PeV. Due to the large number of measured observables per single shower a variety of different approaches are applied to the data, preferably on an event-by-event basis. First results are presented and the influence of the high-energy interaction models underlying the analyses is discussed., 3 pages, 3 figures included, to appear in the TAUP 99 Proceedings, Nucl. Phys. B (Proc. Suppl.), ed. by M. Froissart, J. Dumarchez and D. Vignaud

Published

2000