First Analysis of Earth's Stratospheric γ-Ray Emission in Geographical Coordinates With Fermi LAT
©2020. American Geophysical Union. All Rights Reserved. From low-Earth orbit, the Earth is an extremely bright γ-ray source compared to distant astrophysical objects. The high-energy γ-ray emission, from the Earth's upper atmosphere, is produced by the interactions between cosmic rays (CRs) and...
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th-mahidol.598222020-11-18T16:16:50Z First Analysis of Earth's Stratospheric γ-Ray Emission in Geographical Coordinates With Fermi LAT S. Madlee W. Mitthumsiri D. Ruffolo S. Digel W. Nuntiyakul SLAC National Accelerator Laboratory Mahidol University Chiang Mai University National Astronomical Research Institute of Thailand Agricultural and Biological Sciences Earth and Planetary Sciences Environmental Science ©2020. American Geophysical Union. All Rights Reserved. From low-Earth orbit, the Earth is an extremely bright γ-ray source compared to distant astrophysical objects. The high-energy γ-ray emission, from the Earth's upper atmosphere, is produced by the interactions between cosmic rays (CRs) and air molecules. As CRs are predominantly charged particles, the geomagnetic field acts as a spectrometer, forbidding CRs below a certain energy to arrive and interact with the atmosphere at a given geomagnetic location from a given direction. We use photon data between 0.2 and 20 GeV as observed by the Fermi Large Area Telescope (LAT) to create, for the first time, stratospheric γ-ray emission maps of the Earth in the geographical coordinate system, for different viewing directions from LAT altitude. These maps confirm a strong association between measured γ-ray fluxes and geomagnetic cutoffs for CRs. We also report the spectrum of the Earth's stratospheric γ-ray emission in cardinal directions and use the geomagnetic spectrometer effect to infer the atmosphere's yield function of γ rays per incoming CR proton as a function of CR rigidity at the altitude of the Fermi spacecraft. This work is relevant to the study of near-Earth radiation exposure for astronauts and spacecraft, modeling the geomagnetic field, and CR-air interactions. 2020-11-18T07:43:57Z 2020-11-18T07:43:57Z 2020-09-01 Article Journal of Geophysical Research: Space Physics. Vol.125, No.9 (2020) 10.1029/2020JA028151 21699402 21699380 2-s2.0-85092561275 https://repository.li.mahidol.ac.th/handle/123456789/59822 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85092561275&origin=inward |
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Agricultural and Biological Sciences Earth and Planetary Sciences Environmental Science S. Madlee W. Mitthumsiri D. Ruffolo S. Digel W. Nuntiyakul First Analysis of Earth's Stratospheric γ-Ray Emission in Geographical Coordinates With Fermi LAT |
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©2020. American Geophysical Union. All Rights Reserved. From low-Earth orbit, the Earth is an extremely bright γ-ray source compared to distant astrophysical objects. The high-energy γ-ray emission, from the Earth's upper atmosphere, is produced by the interactions between cosmic rays (CRs) and air molecules. As CRs are predominantly charged particles, the geomagnetic field acts as a spectrometer, forbidding CRs below a certain energy to arrive and interact with the atmosphere at a given geomagnetic location from a given direction. We use photon data between 0.2 and 20 GeV as observed by the Fermi Large Area Telescope (LAT) to create, for the first time, stratospheric γ-ray emission maps of the Earth in the geographical coordinate system, for different viewing directions from LAT altitude. These maps confirm a strong association between measured γ-ray fluxes and geomagnetic cutoffs for CRs. We also report the spectrum of the Earth's stratospheric γ-ray emission in cardinal directions and use the geomagnetic spectrometer effect to infer the atmosphere's yield function of γ rays per incoming CR proton as a function of CR rigidity at the altitude of the Fermi spacecraft. This work is relevant to the study of near-Earth radiation exposure for astronauts and spacecraft, modeling the geomagnetic field, and CR-air interactions. |
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SLAC National Accelerator Laboratory |
| author_facet |
SLAC National Accelerator Laboratory S. Madlee W. Mitthumsiri D. Ruffolo S. Digel W. Nuntiyakul |
| format |
Article |
| author |
S. Madlee W. Mitthumsiri D. Ruffolo S. Digel W. Nuntiyakul |
| author_sort |
S. Madlee |
| title |
First Analysis of Earth's Stratospheric γ-Ray Emission in Geographical Coordinates With Fermi LAT |
| title_short |
First Analysis of Earth's Stratospheric γ-Ray Emission in Geographical Coordinates With Fermi LAT |
| title_full |
First Analysis of Earth's Stratospheric γ-Ray Emission in Geographical Coordinates With Fermi LAT |
| title_fullStr |
First Analysis of Earth's Stratospheric γ-Ray Emission in Geographical Coordinates With Fermi LAT |
| title_full_unstemmed |
First Analysis of Earth's Stratospheric γ-Ray Emission in Geographical Coordinates With Fermi LAT |
| title_sort |
first analysis of earth's stratospheric γ-ray emission in geographical coordinates with fermi lat |
| publishDate |
2020 |
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https://repository.li.mahidol.ac.th/handle/123456789/59822 |
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1763493015410704384 |