期刊
JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS
卷 120, 期 7, 页码 5253-5265出版社
AMER GEOPHYSICAL UNION
DOI: 10.1002/2015JA021249
关键词
cosmic rays; neutron monitors; Monte Carlo simulation; atmospheric showers
资金
- Thailand Research Fund [BRG5180004, BRG5580001]
- Royal Golden Jubilee fellowship [PHD/0136/2552]
- Mahidol University
- South African National Antarctic Programme of the National Research Foundation
- United States National Science Foundation [PLR-1341562, PLR-1245939]
- Office of Polar Programs (OPP)
- Directorate For Geosciences [1245939, 1341562] Funding Source: National Science Foundation
Neutron monitors are the premier instruments for precise measurements of time variations (e.g., of solar origin) in the galactic cosmic ray (GCR) flux in the range of similar to 1-100GeV. However, it has proven challenging to accurately determine the yield function (effective area) versus rigidity in order to relate a neutron monitor's count rate with those of other monitors worldwide and the underlying GCR spectrum. Monte Carlo simulations of the yield function have been developed, but there have been few opportunities to validate these observationally, especially regarding the particular environment surrounding each monitor. Here we have precisely measured the count rate of a calibration neutron monitor near the Princess Sirindhorn Neutron Monitor (PSNM) at Doi Inthanon, Thailand (18.59 degrees N, 98.49 degrees E, 2560m altitude), which provides a basis for comparison with count rates of other neutron monitors worldwide that are similarly calibrated. We directly measured the effect of surrounding structure by operating the calibrator outside and inside the building. Using Monte Carlo simulations, we clarify differences in response of the calibrator and PSNM, as well as the calibrator outside and inside the building. The dependence of the calibrator count rate on surrounding structure can be attributed to its sensitivity to neutrons of 0.5-10MeV and a shift of sensitivity to nucleons of higher energy when placed inside the building. Simulated calibrator to PSNM count rate ratios inside and outside agree with observations within a few percent, providing useful validation and improving confidence in our ability to model the yield function for a neutron monitor station.
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