Performance analysis of NeQuick2 and IRI-Plas models during quiet geomagnetic and low solar activity conditions at Thanjavur equatorial location: Preliminary results

IF 1.1 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS Journal of Astrophysics and Astronomy Pub Date : 2024-01-09 DOI:10.1007/s12036-023-09992-2
Veera Kumar Maheswaran, James A. Baskaradas, Venkata Ratnam Devanaboyina, Sriram Subramanian, Rupesh M. Das
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Abstract

The ionosphere’s dynamic fluctuations are a persistent challenge to satellite navigation and communication. The total electron content (TEC) information from global navigation satellite system (GNSS) signals provides the status of the ionosphere for fail-safe transionospheric communication. The equatorial ionization anomaly (EIA) and equatorial plasma bubble (EPB) dominate in low latitude and equatorial ionosphere. The low solar activity's fast varying pre-reversal enhancement is low, and slow varying gravity waves can seed ionospheric disturbances. This study analyses the vertical TEC (VTEC) variations using a ground-based global positioning system (GPS) receiver at Thanjavur (10.72° N, 79.02° E), Tamil Nadu, India, for the years 2019 and 2020, with specific emphasis on the Equinox and Solstice conditions during low solar activity. The suitability of global ionospheric models such as IRI-Plas and NeQuick2 models is investigated with low solar activity GPS VTEC observations. VTEC variations are more during the Vernal Equinox compared to other seasons. The NeQuick2 model underestimates the VTEC content during the night hours and overestimates the day's evening hours regardless of the month, perhaps due to higher ITU-R coefficients. The results help us improve IRI-Plas and NeQuick prediction models' accuracy.

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在 Thanjavur 赤道位置的安静地磁和低太阳活动条件下对 NeQuick2 和 IRI-Plas 模型的性能分析:初步结果
电离层的动态波动是对卫星导航和通信的长期挑战。来自全球导航卫星系统(GNSS)信号的总电子含量(TEC)信息为电离层的状态提供了故障安全跨电离层通信。赤道电离异常(EIA)和赤道等离子气泡(EPB)在低纬度和赤道电离层中占主导地位。低太阳活动的快速变化逆转前增强较低,而缓慢变化的重力波可能会引发电离层扰动。本研究使用位于印度泰米尔纳德邦坦贾武尔(北纬 10.72°,东经 79.02°)的地基全球定位系统(GPS)接收器分析了 2019 年和 2020 年的垂直 TEC(VTEC)变化,特别侧重于低太阳活动期间的春分和冬至条件。利用低太阳活动期间的全球定位系统 VTEC 观测结果研究了 IRI-Plas 和 NeQuick2 等全球电离层模型的适用性。与其他季节相比,春分期间的 VTEC 变化更大。NeQuick2 模型低估了夜间时段的 VTEC 含量,而高估了白天傍晚时段的 VTEC 含量,无论月份如何,这可能是由于 ITU-R 系数较高所致。这些结果有助于我们提高 IRI-Plas 和 NeQuick 预测模型的准确性。
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来源期刊
Journal of Astrophysics and Astronomy
Journal of Astrophysics and Astronomy 地学天文-天文与天体物理
CiteScore
1.80
自引率
9.10%
发文量
84
审稿时长
>12 weeks
期刊介绍: The journal publishes original research papers on all aspects of astrophysics and astronomy, including instrumentation, laboratory astrophysics, and cosmology. Critical reviews of topical fields are also published. Articles submitted as letters will be considered.
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