Effective Temperature Calculation and Monte Carlo Simulation of Temperature Effect on Muon Flux

MENG Xiang-Wei

Chinese Physics C> 2004, Vol. 28> Issue(2) : 110-115

Effective Temperature Calculation and Monte Carlo Simulation of Temperature Effect on Muon Flux

MENG Xiang-Wei ^,

Institute of High Energy Physics,CAS,Beijing 100039,China

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Abstract：
Many experiments have reported observations on possible correlations between the muon flux and temperature variation in the atmosphere, and especially recent MACRO and AMANDA observed apparent seasonal variation in the absolute muon rate. We report the calculation of effective temperature from Payerne meteorological data, and the simulation of temperature effect on muon flux from its representative atmosphere samples, which gives temperature coefficient α T prediction in muon threshold energy range 30 GeV up to 2000 GeV and the order of possible influence on absolute muon flux.

References

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MENG Xiang-Wei. Effective Temperature Calculation and Monte Carlo Simulation of Temperature Effect on Muon Flux[J]. Chinese Physics C, 2004, 28(2): 110-115.

MENG Xiang-Wei. Effective Temperature Calculation and Monte Carlo Simulation of Temperature Effect on Muon Flux[J]. Chinese Physics C, 2004, 28(2): 110-115. shu

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Received: 2003-05-29
Revised: 1900-01-01

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沈阳化工大学材料科学与工程学院沈阳 110142

Effective Temperature Calculation and Monte Carlo Simulation of Temperature Effect on Muon Flux

Corresponding author: MENG Xiang-Wei,

Institute of High Energy Physics,CAS,Beijing 100039,China

Received Date: 2003-05-29

Accepted Date: 1900-01-01

Available Online: 2004-02-05

Abstract: Many experiments have reported observations on possible correlations between the muon flux and temperature variation in the atmosphere, and especially recent MACRO and AMANDA observed apparent seasonal variation in the absolute muon rate. We report the calculation of effective temperature from Payerne meteorological data, and the simulation of temperature effect on muon flux from its representative atmosphere samples, which gives temperature coefficient α T prediction in muon threshold energy range 30 GeV up to 2000 GeV and the order of possible influence on absolute muon flux.

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