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Solar magnetic polarity effect on neutron monitor count rates from latitude surveys versus Antarctic stations


Poopakun, K and Nuntiyakul, W and Ruffolo, D and Evenson, P and Peng, J and Chuanraksasat, P and Duldig, ML and Humble, JE and Oh, S, Solar magnetic polarity effect on neutron monitor count rates from latitude surveys versus Antarctic stations, Proceedings of the 37th International Cosmic Ray Conference (ICRC 2021), Paper 1268, 12-23 July 2021, Virtual Conference, Online (Berlin, Germany) (2021) [Non Refereed Conference Paper]

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The Galactic cosmic ray spectrum manifests subtle variations over the 22-year solar magnetic cycle in addition to more pronounced variations over the 11-year sunspot cycle. We conducted numerous latitude surveys by operating a neutron monitor onboard an icebreaker that traveled across a wide range of geomagnetic cutoff rigidity. Here we revisit our previous work to study spectral changes using 13 annual latitude surveys from 1994 to 2007 by comparing with neutron monitor data from Mawson instead of McMurdo, which closed in 2017, in order to allow a comparison with more recent latitude surveys. We confirm linear trends between count rates at different geomagnetic cutoff rigidity and changes in slope before and after the polarity reversal in 2000 as an effect of solar magnetic polarity. We performed two more latitude surveys (in 2019 and 2020) with a monitor similar to the 3NM64 in the previous surveys but without lead rings around the central tube, a so-called "semi-leaded neutron monitor."We also found similar results for the relationship between the count rate of the semi-leaded neutron monitor and that of the Jang Bogo and Mawson neutron monitor stations in Antarctica.

Item Details

Item Type:Non Refereed Conference Paper
Keywords:cosmic rays, cosmic ray spectrum, neutron monitor, latitude survey, geomagnetic cutoff
Research Division:Physical Sciences
Research Group:Astronomical sciences
Research Field:High energy astrophysics and galactic cosmic rays
Objective Division:Expanding Knowledge
Objective Group:Expanding knowledge
Objective Field:Expanding knowledge in the physical sciences
UTAS Author:Duldig, ML (Dr Marc Duldig)
UTAS Author:Humble, JE (Dr John Humble)
ID Code:146268
Year Published:2021
Deposited By:Physics
Deposited On:2021-08-26
Last Modified:2021-09-14

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