R. N. Alotaibi scite author profile

The rate of the detected cosmic ray muons depends on the atmospheric mass, height of pion production level, and temperature. Corrections for the changes in these parameters are importance to know the properties of the primary cosmic rays. In this paper, the effect of atmospheric mass, represented here by the atmospheric pressure, on the cosmic ray was studied using data from the KACST muon detector during the 2002–2012 period. The analysis was conducted by calculating the barometric coefficient (α) using regression analysis between the two parameters. The variation ofαover different time scales was investigated. The results revealed a seasonal cycle ofαwith a maximum in September and a minimum in March. Data from Adelaide muon detector were used, and different monthly variation was found. The barometric coefficient displays considerable variability at the interannual scale. Study of the annual variations ofαindicated cyclic variation with maximums between 2008 and 2009 and minimums between 2002 and 2003. This variable tendency is found to be anticorrelated with the solar activity, represented by the sunspot number. This finding was compared with the annual trend ofαfor the Adelaide muon detector for the same period of time, and a similar trend was found.

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On the calibration of a single channel cosmic ray particle detector

Maghrabi

Alghamdi

Alotaibi

et al. 2014

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The Ground Temperature Effect on Cosmic-Ray Muons at Mid latitude City

Maghrabi

Alotaibi

Almutayri

et al. 2015

J. Phys.: Conf. Ser.

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R. N. Alotaibi

Long-term variations of AOD from an AERONET station in the central Arabian Peninsula

Influence of the Atmospheric Mass on the High Energy Cosmic Ray Muons during a Solar Cycle

On the calibration of a single channel cosmic ray particle detector

The Ground Temperature Effect on Cosmic-Ray Muons at Mid latitude City

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