Simulation Study of the Fraction of Askaryan Radio Emission from Cosmic-Ray Air Showers at the South Pole.

Radio emission from cosmic ray air showers has the potential to become an additional, cost-effective observing technique for cosmic ray research, being largely complementary to the well-established particle detector and air fluorescence techniques. We present Monte Carlo simulations of radio emission from extensive air showers in the scheme of coherent geosynchrotron radiation from electron-positron pairs gyrating in the earth's magnetic field. Preliminary results of our simulations are the predicted frequency, primary particle energy, shower zenith angle, shower azimuth angle and polarization dependence of the radio emission. These properties can be directly related to data measured by LOPES and other experiments.

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Simulation Study of the Observed Radio Emission of Air Showers by the IceTop Surface Extension

10.22323/1.395.0317 ◽

2021 ◽

Author(s):

Alan Coleman ◽

Rasha Abbasi ◽

Markus Ackermann ◽

Jenni Adams ◽

Juanan Aguilar ◽

...

Keyword(s):

Radio Emission ◽

Simulation Study ◽

Air Showers

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First analysis of inclined air showers detected by Tunka-Rex

EPJ Web of Conferences ◽

10.1051/epjconf/201921602012 ◽

2019 ◽

Vol 216 ◽

pp. 02012

Author(s):

T. Marshalkina ◽

P.A. Bezyazeekov ◽

N.M. Budnev ◽

D. Chernykh ◽

O. Fedorov ◽

...

Keyword(s):

Magnetic Field ◽

Radio Emission ◽

Zenith Angle ◽

Cosmic Ray ◽

High Energy ◽

Ultra High Energy ◽

Air Showers ◽

Standard Analysis ◽

Air Shower ◽

The Magnetic Field

The Tunka Radio Extension (Tunka-Rex) is a digital antenna array for the detection of radio emission from cosmic-ray air showers in the frequency band of 30 to 80 MHz and for primary energies above 100 PeV. The standard analysis of Tunka-Rex includes events with zenith angle of up to 50?. This cut is determined by the efficiency of the external trigger. However, due to the air-shower footprint increasing with zenith angle and due to the more efficient generation of radio emission (the magnetic field in the Tunka valley is almost vertical), there are a number of ultra-high-energy inclined events detected by Tunka-Rex. In this work we present a first analysis of a subset of inclined events detected by Tunka-Rex. We estimate the energies of the selected events and test the efficiency of Tunka-Rex antennas for detection of inclined air showers.

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Determining atmospheric electric fields through radio emission from air showers

EPJ Web of Conferences ◽

10.1051/epjconf/201921603010 ◽

2019 ◽

Vol 216 ◽

pp. 03010

Author(s):

Gia Trinh ◽

Olaf Scholten ◽

Ute Ebert ◽

Hidde Leijnse ◽

Casper Rutjes

Keyword(s):

Radio Emission ◽

Electric Fields ◽

Cosmic Ray ◽

Thunderstorm Activity ◽

Fair Weather ◽

Air Showers

During thunderstorm conditions the radio footprint (intensity as well as polarization) of cosmic ray showers deviates strongly from those measured during fair weather. We have been able to interpret this pattern in terms of atmospheric electric fields. We see that even when there is no thunderstorm activity within 100 km distance within an hour of the event, the radio footprint may be strongly affected

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Experimental test of the anomalous density spectrum of cosmic ray showers, as an adjunct to the South Pole air shower experiment?

10.1063/1.39004 ◽

1990 ◽

Author(s):

A. M. Hillas

Keyword(s):

Experimental Test ◽

Cosmic Ray ◽

South Pole ◽

The South ◽

Density Spectrum ◽

Air Shower ◽

Anomalous Density

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Muon Measurements with IceTop

EPJ Web of Conferences ◽

10.1051/epjconf/201920803003 ◽

2019 ◽

Vol 208 ◽

pp. 03003 ◽

Cited By ~ 3

Author(s):

Javier G. Gonzalez

Keyword(s):

Monte Carlo ◽

Monte Carlo Simulations ◽

Cosmic Ray ◽

Shower Axis ◽

South Pole ◽

Air Showers ◽

Hadronic Interaction ◽

Interaction Models ◽

Lateral Distance ◽

Cosmic Ray Flux

We present the measurement of the density of GeV muons in near-vertical air showers by the IceTop array at the South Pole. The muon density is measured at 600 m and 800 m lateral distance from the shower axis in air showers between 1 PeV and 100 PeV. This result can be used to constrain hadronic interaction models by comparing it with the outcome of Monte Carlo simulations. We show that some models do not produce muon densities in agreement with this result unless an unphysical composition of the primary cosmic ray flux is assumed.

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Estimating the mass of cosmic rays by combining radio and muon measurements

EPJ Web of Conferences ◽

10.1051/epjconf/201921602002 ◽

2019 ◽

Vol 216 ◽

pp. 02002 ◽

Cited By ~ 1

Author(s):

Ewa M. Holt

Keyword(s):

Radio Emission ◽

Cosmic Ray ◽

Mass Separation ◽

New Method ◽

Alternative Methods ◽

Air Showers ◽

Particle Detectors ◽

Particle Measurements ◽

Air Shower ◽

Comparable Performance

The Auger Engineering Radio Array (AERA) is a radio detector at the Pierre Auger Observatory and it is dedicated to measure the radio emission of cosmic-ray air showers. AERA is co-located with the underground muon detectors of the Auger Muons and Infill for the Ground Array (AMIGA). This provides a perfect setup to experimentally test the benefits of combining muons and radio emission for estimating the primary mass. We have investigated this combination using air-shower simulations. We compared the performance for mass separation of this new method to alternative methods in which the electrons and muons are measured with particle detectors at the surface. Forshowers with zenith angles below 50° the new method is of comparable performance, and for showers more inclinedthan 50° it is clearly superior. Therefore, measuring the radio signal in addition to the muons significantly improves the mass sensitivity compared to techniques using solely particle measurements.

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LOPES-3D - vectorial measurements of radio emission from cosmic ray induced air showers

10.1063/1.4807528 ◽

2013 ◽

Author(s):

D. Huber ◽

W. D. Apel ◽

J. C. Arteaga-Velázquez ◽

L. Bähren ◽

K. Bekk ◽

...

Keyword(s):

Radio Emission ◽

Cosmic Ray ◽

Air Showers

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An investigation into the correlation of geomagnetic storms with tropospheric parameters over the South Pole

Annales Geophysicae ◽

10.5194/angeo-21-1095-2003 ◽

2003 ◽

Vol 21 (5) ◽

pp. 1095-1100 ◽

Cited By ~ 2

Author(s):

M. M. Lam ◽

A. S. Rodger

Keyword(s):

Solar Wind ◽

Geomagnetic Storm ◽

Lower Stratosphere ◽

Geomagnetic Storms ◽

Cosmic Ray ◽

Magnetic Activity ◽

Atmospheric Composition ◽

South Pole ◽

The South ◽

Interplanetary Physics

Abstract. We test the proposal that the Sun’s magnetic activity, communicated via the solar wind, provides a link between solar variability and the Earth’s climate in the Antarctic troposphere. The strength of a geomagnetic storm is one indicator of the state of the solar wind; therefore, we use the dates of 51 moderate to strong winter geomagnetic storms from the period 1961–1990 to conduct a series of superposed epoch analyses of the winter South Pole isobaric height and temperature, at pressures of between 100–500 mbar. Using Student’s t -test to compare the mean value of the pre- and post-storm data sets, we find no evidence to support the hypothesis that there is a statistically-significant correlation between the onset of a geomagnetic storm and changes in the isobaric temperature or height of the troposphere and lower stratosphere over the South Pole during winter months. This concurs with a similar study of the variability of the troposphere and lower stratosphere over the South Pole (Lam and Rodger, 2002) which uses drops in the level of observed galactic cosmic ray intensity, known as Forbush decreases, as a proxy for solar magnetic activity instead of geomagnetic storms.Key words. Interplanetary physics (solar wind plasma; cosmic rays) – Atmospheric composition and structure (pressure, density and temperature)

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