基于商业飞行航空辐射现场测量的KREAM验证

IF 0.6 Q4 ASTRONOMY & ASTROPHYSICS

Journal of Astronomy and Space Sciences Pub Date : 2020-12-01 DOI:10.5140/JASS.2020.37.4.229

Jung-Lae Hwang, Jaeyoung Kwak, Gyeongbok Jo, U. Nam

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引用次数: 3

摘要

在韩国，越来越需要对航空辐射进行更精确的预测和测量。为了机组人员和乘客的辐射安全，我们开发了自己的KREAM辐射预测模型。本文通过与柳林观测数据的对比，验证了KREAM模型的有效性。在今年的前三个月，我们在商业航班上使用柳林- 6k进行了25次航空辐射暴露试验。我们发现，总的来说，KREAM的结果与柳林观测结果非常吻合。NAIRAS观测结果大多高于柳林观测结果，而CARI-6M观测结果普遍低于柳林观测结果。KREAM与柳林观测值的误差为10.95%。而NAIRAS的误差为43.38%，CARI-6M的误差为22.03%。我们发现，海拔的增加可能会导致辐射暴露的突然增加，特别是对于极地路线。由于需要更全面和完整的分析来验证KREAM用于公共服务的可靠性，我们计划在不久的将来使用柳林和组织等效比例计数器(TEPC)扩展这些辐射测量。

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Validation of KREAM Based on In-Situ Measurements of Aviation Radiation in Commercial Flights

There has been increasing necessity of more precise prediction and measurements of aviation radiation in Korea. For our air crew and passengers’ radiation safety, we develop our own radiation prediction model of KREAM. In this paper, we validate the KREAM model based on comparison with Liulin observations. During early three months of this year, we perform total 25 experiments to measure aviation radiation exposure using Liulin-6K in commercial flights. We found that KREAM’s result is very well consistent with Liulin observation in general. NAIRAS shows mostly higher results than Liulin observation, while CARI-6M shows generally lower results than the observations. The percent error of KREAM compared with Liulin observation is 10.95%. In contrast, the error for NAIRAS is 43.38% and 22.03% for CARI-6M. We found that the increase of the altitude might cause sudden increase in radiation exposure, especially for the polar route. As more comprehensive and complete analysis is required to validate KREAM’s reliability to use for the public service, we plan to expand these radiation measurements with Liulin and Tissue Equivalent Proportional Counter (TEPC) in the near future.

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来源期刊

Journal of Astronomy and Space Sciences ASTRONOMY & ASTROPHYSICS-

CiteScore

1.30

自引率

20.00%

发文量

审稿时长

12 weeks

期刊介绍： JASS aims for the promotion of global awareness and understanding of space science and related applications. Unlike other journals that focus either on space science or on space technologies, it intends to bridge the two communities of space science and technologies, by providing opportunities to exchange ideas and viewpoints in a single journal. Topics suitable for publication in JASS include researches in the following fields: space astronomy, solar physics, magnetospheric and ionospheric physics, cosmic ray, space weather, and planetary sciences; space instrumentation, satellite dynamics, geodesy, spacecraft control, and spacecraft navigation. However, the topics covered by JASS are not restricted to those mentioned above as the journal also encourages submission of research results in all other branches related to space science and technologies. Even though JASS was established on the heritage and achievements of the Korean space science community, it is now open to the worldwide community, while maintaining a high standard as a leading international journal. Hence, it solicits papers from the international community with a vision of global collaboration in the fields of space science and technologies.