Tracking Cosmic-Ray Spectral Variation during 2007-2018 Using Neutron Monitor Time-delay Measurements

Tracking Cosmic-Ray Spectral Variation during 2007-2018 Using Neutron Monitor Time-delay Measurements

© 2020. The American Astronomical Society. All rights reserved.. The energy spectrum of Galactic cosmic-ray (GCR) ions at Earth varies with solar activity as these ions cross the heliosphere. Thus, this "solar modulation" of GCRs provides remote sensing of heliospheric conditions throughou...

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Main Authors: C. Banglieng, H. Janthaloet, D. Ruffolo, A. Sáiz, W. Mitthumsiri, P. Muangha, P. Evenson, T. Nutaro, R. Pyle, S. Seunarine, J. Madsen, P. S. Mangeard, R. Macatangay
Other Authors: University of Wisconsin-River Falls
Format: Article
Published: 2020
Subjects:
Earth and Planetary Sciences
Physics and Astronomy
Online Access:https://repository.li.mahidol.ac.th/handle/123456789/54539
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spelling th-mahidol.545392020-05-05T13:07:35Z Tracking Cosmic-Ray Spectral Variation during 2007-2018 Using Neutron Monitor Time-delay Measurements C. Banglieng H. Janthaloet D. Ruffolo A. Sáiz W. Mitthumsiri P. Muangha P. Evenson T. Nutaro R. Pyle S. Seunarine J. Madsen P. S. Mangeard R. Macatangay University of Wisconsin-River Falls Ubon Rajathanee University Mahidol University The Bartol Research Institute Pyle Consulting Group, Inc. National Astronomical Research Institute of Thailand Earth and Planetary Sciences Physics and Astronomy © 2020. The American Astronomical Society. All rights reserved.. The energy spectrum of Galactic cosmic-ray (GCR) ions at Earth varies with solar activity as these ions cross the heliosphere. Thus, this "solar modulation" of GCRs provides remote sensing of heliospheric conditions throughout the ∼11 yr sunspot cycle and ∼22 yr solar magnetic cycle. A neutron monitor (NM) is a stable ground-based detector that measures cosmic-ray rate variations above a geomagnetic or atmospheric cutoff rigidity with high precision (∼0.1%) over such timescales. Furthermore, we developed electronics and analysis techniques to indicate variations in the cosmic-ray spectral index using neutron time-delay data from a single station. Here we study solar modulation using neutron time-delay histograms from two high-altitude NM stations: (1) the Princess Sirindhorn Neutron Monitor at Doi Inthanon, Thailand, with the world's highest vertical geomagnetic cutoff rigidity, 16.7 GV, from 2007 December to 2018 April; and (2) the South Pole NM, with an atmosphere-limited cutoff of ∼1 GV, from 2013 December to 2018 April. From these histograms, we extract the leader fraction L, i.e., inverse neutron multiplicity, as a proxy of a GCR spectral index above the cutoff. After correction for pressure and precipitable water vapor variations, we find that L roughly correlates with the count rate but also exhibits hysteresis, implying a change in spectral shape after a solar magnetic polarity reversal. Spectral variations due to Forbush decreases, 27 day variations, and a ground-level enhancement are also indicated. These methods enhance the high-precision GCR spectral information from the worldwide NM network and extend it to higher rigidity. 2020-05-05T05:19:33Z 2020-05-05T05:19:33Z 2020-02-10 Article Astrophysical Journal. Vol.890, No.1 (2020) 10.3847/1538-4357/ab6661 15384357 0004637X 2-s2.0-85082435139 https://repository.li.mahidol.ac.th/handle/123456789/54539 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85082435139&origin=inward
institution Mahidol University
building Mahidol University Library
continent Asia
country Thailand
Thailand
content_provider Mahidol University Library
collection Mahidol University Institutional Repository
topic Earth and Planetary Sciences
Physics and Astronomy
spellingShingle Earth and Planetary Sciences
Physics and Astronomy
C. Banglieng
H. Janthaloet
D. Ruffolo
A. Sáiz
W. Mitthumsiri
P. Muangha
P. Evenson
T. Nutaro
R. Pyle
S. Seunarine
J. Madsen
P. S. Mangeard
R. Macatangay
Tracking Cosmic-Ray Spectral Variation during 2007-2018 Using Neutron Monitor Time-delay Measurements
description © 2020. The American Astronomical Society. All rights reserved.. The energy spectrum of Galactic cosmic-ray (GCR) ions at Earth varies with solar activity as these ions cross the heliosphere. Thus, this "solar modulation" of GCRs provides remote sensing of heliospheric conditions throughout the ∼11 yr sunspot cycle and ∼22 yr solar magnetic cycle. A neutron monitor (NM) is a stable ground-based detector that measures cosmic-ray rate variations above a geomagnetic or atmospheric cutoff rigidity with high precision (∼0.1%) over such timescales. Furthermore, we developed electronics and analysis techniques to indicate variations in the cosmic-ray spectral index using neutron time-delay data from a single station. Here we study solar modulation using neutron time-delay histograms from two high-altitude NM stations: (1) the Princess Sirindhorn Neutron Monitor at Doi Inthanon, Thailand, with the world's highest vertical geomagnetic cutoff rigidity, 16.7 GV, from 2007 December to 2018 April; and (2) the South Pole NM, with an atmosphere-limited cutoff of ∼1 GV, from 2013 December to 2018 April. From these histograms, we extract the leader fraction L, i.e., inverse neutron multiplicity, as a proxy of a GCR spectral index above the cutoff. After correction for pressure and precipitable water vapor variations, we find that L roughly correlates with the count rate but also exhibits hysteresis, implying a change in spectral shape after a solar magnetic polarity reversal. Spectral variations due to Forbush decreases, 27 day variations, and a ground-level enhancement are also indicated. These methods enhance the high-precision GCR spectral information from the worldwide NM network and extend it to higher rigidity.
author2 University of Wisconsin-River Falls
author_facet University of Wisconsin-River Falls
C. Banglieng
H. Janthaloet
D. Ruffolo
A. Sáiz
W. Mitthumsiri
P. Muangha
P. Evenson
T. Nutaro
R. Pyle
S. Seunarine
J. Madsen
P. S. Mangeard
R. Macatangay
format Article
author C. Banglieng
H. Janthaloet
D. Ruffolo
A. Sáiz
W. Mitthumsiri
P. Muangha
P. Evenson
T. Nutaro
R. Pyle
S. Seunarine
J. Madsen
P. S. Mangeard
R. Macatangay
author_sort C. Banglieng
title Tracking Cosmic-Ray Spectral Variation during 2007-2018 Using Neutron Monitor Time-delay Measurements
title_short Tracking Cosmic-Ray Spectral Variation during 2007-2018 Using Neutron Monitor Time-delay Measurements
title_full Tracking Cosmic-Ray Spectral Variation during 2007-2018 Using Neutron Monitor Time-delay Measurements
title_fullStr Tracking Cosmic-Ray Spectral Variation during 2007-2018 Using Neutron Monitor Time-delay Measurements
title_full_unstemmed Tracking Cosmic-Ray Spectral Variation during 2007-2018 Using Neutron Monitor Time-delay Measurements
title_sort tracking cosmic-ray spectral variation during 2007-2018 using neutron monitor time-delay measurements
publishDate 2020
url https://repository.li.mahidol.ac.th/handle/123456789/54539
_version_ 1763496012038537216

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