On the detection of a solar radio burst event occurred on 28 August 2022 and its effect on GNSS signals as observed by ionospheric scintillation monitors distributed over the American sector

IF 3.4 2区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
I. G. Wright, Fabiano Rodrigues, J. Gomez Socola, A. O. Moraes, J. F. G. Monico, J. Sojka, L. Scherliess, D. Layne, I. Paulino, R. A. Buriti, C. G. M. Brum, P. Terra, K. Deshpande, P. R. Vaggu, P. J. Erickson, N. A. Frissell, J. Makela, D. Scipion
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Abstract

As part of an effort to observe and study ionospheric disturbances and their effects on radio signals used by Global Navigation Satellite Systems (GNSS), alternative low-cost GNSS-based ionospheric scintillation and total electron content (TEC) monitors have been deployed over the American sector. During inspection of the observations made on 28 August 2022, we found increases in the amplitude scintillation index (S4) reported by the monitors for the period between approximately 17:45 UT and 18:20 UT. The distributed, dual-frequency observations made by the sensors allowed us to determine that the increases in S4 were not caused by ionospheric irregularities. Instead, they resulted from C/No variations caused by a solar radio burst (SRB) event that followed the occurrence of two M-class X-ray solar flares and a Halo coronal mass ejection. The measurements also allowed us to quantify the impact of the SRB on GNSS signals. The observations show that the SRB caused maximum C/No fadings of about 8 dB-Hz (12 dB-Hz) on L1 ~ 1.6 GHz (L2 ~ 1.2 GHz) for signals observed by the monitor in Dallas for which the solar zenith angle was maximum (~24.4o) during the SRB. Calculations using observations made by the distributed monitors also show excellent agreement for estimates of the maximum (vertical equivalent) C/No fadings in both L1 and L2. The calculations show maximum fadings of 9 dB-Hz for L1 and of 13 dB-Hz for L2. Finally, the results exemplify the usefulness of the low-cost monitors for studies beyond those associated with ionospheric irregularities and scintillation.
关于探测到2022年8月28日发生的太阳射电暴事件及其对分布在美国扇区的电离层闪烁监测仪观测到的全球导航卫星系统信号的影响
作为观察和研究电离层干扰及其对全球导航卫星系统(GNSS)使用的无线电信号影响的努力的一部分,在美国地区部署了另一种低成本的基于GNSS的电离层闪烁和总电子含量(TEC)监测仪。在检查2022年8月28日的观测结果时,我们发现监测器报告的幅度闪烁指数(S4)在大约17:45 UT至18:20 UT期间有所增加。由传感器进行的分布双频观测使我们能够确定S4的增加不是由电离层不规则引起的。相反,它们是由太阳射电爆发(SRB)事件引起的C/No变化引起的,该事件发生在两次m级x射线太阳耀斑和一次日冕物质抛射之后。这些测量还使我们能够量化SRB对GNSS信号的影响。观测结果表明,在SRB期间,在L1 ~ 1.6 GHz (L2 ~ 1.2 GHz)范围内,太阳天顶角最大(~ 24.40)的达拉斯监测仪观测到的信号,在SRB期间产生的最大C/No衰减约为8 dB-Hz (12 dB-Hz)。利用分布式监测仪的观测结果进行的计算也显示L1和L2中最大(垂直等效)C/No衰减的估计非常一致。计算表明L1的最大衰减为9db - hz, L2的最大衰减为13db - hz。最后,结果举例说明了低成本监测器在电离层不规则和闪烁相关研究之外的有用性。
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来源期刊
Journal of Space Weather and Space Climate
Journal of Space Weather and Space Climate ASTRONOMY & ASTROPHYSICS-GEOCHEMISTRY & GEOPHYSICS
CiteScore
6.90
自引率
6.10%
发文量
40
审稿时长
8 weeks
期刊介绍: The Journal of Space Weather and Space Climate (SWSC) is an international multi-disciplinary and interdisciplinary peer-reviewed open access journal which publishes papers on all aspects of space weather and space climate from a broad range of scientific and technical fields including solar physics, space plasma physics, aeronomy, planetology, radio science, geophysics, biology, medicine, astronautics, aeronautics, electrical engineering, meteorology, climatology, mathematics, economy, informatics.
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