A new way of air shower detection: Measuring the properties of cosmic rays with LOFAR

A. Nelles; S. Buitink; A. Corstanje; J. E. Enriquez; H. Falcke; J. R. Hörandel; J. P. Rachen; P. Schellart; O. Scholten; S. Ter Veen; S. Thoudam; T. N.G. Trinh

doi:10.1088/1742-6596/632/1/012018

A new way of air shower detection: Measuring the properties of cosmic rays with LOFAR

A. Nelles
, S. Buitink
, A. Corstanje
, J. E. Enriquez
, H. Falcke
, J. R. Hörandel
, J. P. Rachen
, P. Schellart
, O. Scholten
, S. Ter Veen
, S. Thoudam
, T. N.G. Trinh

Physics

Research output: Contribution to journal › Conference article › peer-review

2 Scopus citations

Abstract

High-energy cosmic rays impinging onto the atmosphere of the Earth initiate cascades of secondary particles: extensive air showers. Many of the particles in a shower are electrons and positrons. During the development of the air shower and by interacting with the geomagnetic field, the electromagnetic cascade creates radiation, which we detect at frequencies of tens of MHz with the LOFAR radio telescope in the Netherlands. After many years of struggling to understand the emission mechanisms, the radio community has achieved the breakthrough. We are now able to determine direction, energy, and type of the shower- inducing primary particle from the radio measurements. The large number of antennas at LOFAR allows us to have a high precision and very detailed measurements. We will elaborate on the shower reconstruction, a precise description of the intensity of the radio signal at ground level (at frequencies from 10 to 240 MHz), a precise measurement of the shape of the radio wavefront, and on the reconstruction of the shower energy.

Original language	British English
Article number	012018
Journal	Journal of Physics: Conference Series
Volume	632
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/632/1/012018
State	Published - 13 Aug 2015
Event	24th European Cosmic Ray Symposium, ECRS 2014 - Kiel, Germany Duration: 1 Sep 2014 → 5 Sep 2014

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Nelles, A., Buitink, S., Corstanje, A., Enriquez, J. E., Falcke, H., Hörandel, J. R., Rachen, J. P., Schellart, P., Scholten, O., Ter Veen, S., Thoudam, S., & Trinh, T. N. G. (2015). A new way of air shower detection: Measuring the properties of cosmic rays with LOFAR. Journal of Physics: Conference Series, 632(1), Article 012018. https://doi.org/10.1088/1742-6596/632/1/012018

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title = "A new way of air shower detection: Measuring the properties of cosmic rays with LOFAR",

abstract = "High-energy cosmic rays impinging onto the atmosphere of the Earth initiate cascades of secondary particles: extensive air showers. Many of the particles in a shower are electrons and positrons. During the development of the air shower and by interacting with the geomagnetic field, the electromagnetic cascade creates radiation, which we detect at frequencies of tens of MHz with the LOFAR radio telescope in the Netherlands. After many years of struggling to understand the emission mechanisms, the radio community has achieved the breakthrough. We are now able to determine direction, energy, and type of the shower- inducing primary particle from the radio measurements. The large number of antennas at LOFAR allows us to have a high precision and very detailed measurements. We will elaborate on the shower reconstruction, a precise description of the intensity of the radio signal at ground level (at frequencies from 10 to 240 MHz), a precise measurement of the shape of the radio wavefront, and on the reconstruction of the shower energy.",

author = "A. Nelles and S. Buitink and A. Corstanje and Enriquez, \{J. E.\} and H. Falcke and H{\"o}randel, \{J. R.\} and Rachen, \{J. P.\} and P. Schellart and O. Scholten and \{Ter Veen\}, S. and S. Thoudam and Trinh, \{T. N.G.\}",

note = "Publisher Copyright: {\textcopyright} Published under licence by IOP Publishing Ltd.; 24th European Cosmic Ray Symposium, ECRS 2014 ; Conference date: 01-09-2014 Through 05-09-2014",

year = "2015",

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doi = "10.1088/1742-6596/632/1/012018",

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AU - Nelles, A.

AU - Buitink, S.

AU - Corstanje, A.

AU - Enriquez, J. E.

AU - Falcke, H.

AU - Hörandel, J. R.

AU - Rachen, J. P.

AU - Schellart, P.

AU - Scholten, O.

AU - Ter Veen, S.

AU - Thoudam, S.

AU - Trinh, T. N.G.

PY - 2015/8/13

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N2 - High-energy cosmic rays impinging onto the atmosphere of the Earth initiate cascades of secondary particles: extensive air showers. Many of the particles in a shower are electrons and positrons. During the development of the air shower and by interacting with the geomagnetic field, the electromagnetic cascade creates radiation, which we detect at frequencies of tens of MHz with the LOFAR radio telescope in the Netherlands. After many years of struggling to understand the emission mechanisms, the radio community has achieved the breakthrough. We are now able to determine direction, energy, and type of the shower- inducing primary particle from the radio measurements. The large number of antennas at LOFAR allows us to have a high precision and very detailed measurements. We will elaborate on the shower reconstruction, a precise description of the intensity of the radio signal at ground level (at frequencies from 10 to 240 MHz), a precise measurement of the shape of the radio wavefront, and on the reconstruction of the shower energy.

AB - High-energy cosmic rays impinging onto the atmosphere of the Earth initiate cascades of secondary particles: extensive air showers. Many of the particles in a shower are electrons and positrons. During the development of the air shower and by interacting with the geomagnetic field, the electromagnetic cascade creates radiation, which we detect at frequencies of tens of MHz with the LOFAR radio telescope in the Netherlands. After many years of struggling to understand the emission mechanisms, the radio community has achieved the breakthrough. We are now able to determine direction, energy, and type of the shower- inducing primary particle from the radio measurements. The large number of antennas at LOFAR allows us to have a high precision and very detailed measurements. We will elaborate on the shower reconstruction, a precise description of the intensity of the radio signal at ground level (at frequencies from 10 to 240 MHz), a precise measurement of the shape of the radio wavefront, and on the reconstruction of the shower energy.

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Y2 - 1 September 2014 through 5 September 2014

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A new way of air shower detection: Measuring the properties of cosmic rays with LOFAR

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