探索不同太阳活动条件下印度赤道波峰地区的电离层等离子体密度趋势

IF 1.8 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Journal of Atmospheric and Solar-Terrestrial Physics Pub Date : 2024-05-24 DOI:10.1016/j.jastp.2024.106266
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引用次数: 0

摘要

利用全球定位系统(GPS)测量的 2004 至 2009 年和 2011 至 2013 年 9 年垂直电子总含量(TEC)数据,研究了印度电离层扇区近赤道异常峰区海得拉巴(17.38∘N,78.48∘E;8.52∘N 磁纬度)电离层等离子体演变的长期趋势。研究考察了 2004 年至 2013 年不同季节地磁静默日期间 TEC 的平均日变化、月变化、季变化和年变化。研究结果表明,在整个研究期间,异常峰顶区域的日间 TEC 呈现半年变化,而午夜 TEC 仅在 2011-2013 年太阳活动频繁的年份呈现半年变化。冬季异常出现在 2004 年和 2006 年。研究还评估了 2016 年国际参考电离层(IRI)模型在再现赤道波峰地区 GPS TEC 变化方面的性能。IRI-TEC 的昼夜和季节变化规律与 GPS TEC 有很好的相关性。不过,IRI 2016 模式在太阳活动较少的时期(2006-2009 年)往往会高估 TEC 值,但在太阳活动较多的时期(2011-2013 年)却能较好地再现 TEC 的变化。不过,IRI 模式未能捕捉到海得拉巴的 TEC 峰值通常出现在 1200-1600 IST 之间的宽高原结构。此外,IRI-TEC 始终显示清晨时段的 TEC 值非常低,而 GPS-TEC 测量则表明等离子体密度非常大。研究表明,太阳周期对海得拉巴的 TEC 变化有很大影响,这一点从与 F10.7 厘米指数的正相关性(R2=0.71)可以看出。IRI 2016模型也很好地体现了这一特征。
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Exploring ionospheric plasma density trends in the Indian equatorial crest region under varying solar activity conditions

Long-term trends in the evolution of ionospheric plasma at Hyderabad (17.38N, 78.48E; 8.52N Magnetic Latitude), a near-equatorial anomaly (EIA) crest region of the Indian ionospheric sector, have been studied using 9 years of vertical Total Electron Content (TEC) data from 2004 to 2009 and 2011 to 2013 using global positioning satellites (GPS) measurements. The study examined the mean diurnal, monthly, seasonal, and yearly variations of TEC during geomagnetic quiet days in different seasons from 2004 to 2013. The findings reveal that the daytime TEC at the anomaly crest region exhibits semi-annual variations throughout the study period, while midnight TEC shows semi-annual variation only during the high solar activity years of 2011–2013. The winter anomaly was observed in 2004 and 2006. The study also assessed the performance of the International Reference Ionosphere (IRI) 2016 model in reproducing GPS TEC variability at the equatorial crest region. The diurnal and seasonal variation patterns in IRI-TEC show a good correlation with GPS TEC. However, the IRI 2016 model tends to overestimate TEC values during low solar activity conditions (2006–2009) but represents TEC variations reasonably well during high solar activity periods (2011–2013). Nevertheless, the IRI model fails to capture the wide plateau-like structure in the peak TEC, typically occurring between 1200–1600 IST at Hyderabad. Additionally, IRI-TEC consistently indicates very low TEC values during the early morning hours, whereas GPS-TEC measurements suggest a significant presence of plasma density. The study suggests a strong influence of the solar cycle on TEC variations at Hyderabad, evident from the positive correlation (R2= 0.71) with the F10.7 cm index. This characteristic is also well represented by the IRI 2016 model.

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来源期刊
Journal of Atmospheric and Solar-Terrestrial Physics
Journal of Atmospheric and Solar-Terrestrial Physics 地学-地球化学与地球物理
CiteScore
4.10
自引率
5.30%
发文量
95
审稿时长
6 months
期刊介绍: The Journal of Atmospheric and Solar-Terrestrial Physics (JASTP) is an international journal concerned with the inter-disciplinary science of the Earth''s atmospheric and space environment, especially the highly varied and highly variable physical phenomena that occur in this natural laboratory and the processes that couple them. The journal covers the physical processes operating in the troposphere, stratosphere, mesosphere, thermosphere, ionosphere, magnetosphere, the Sun, interplanetary medium, and heliosphere. Phenomena occurring in other "spheres", solar influences on climate, and supporting laboratory measurements are also considered. The journal deals especially with the coupling between the different regions. Solar flares, coronal mass ejections, and other energetic events on the Sun create interesting and important perturbations in the near-Earth space environment. The physics of such "space weather" is central to the Journal of Atmospheric and Solar-Terrestrial Physics and the journal welcomes papers that lead in the direction of a predictive understanding of the coupled system. Regarding the upper atmosphere, the subjects of aeronomy, geomagnetism and geoelectricity, auroral phenomena, radio wave propagation, and plasma instabilities, are examples within the broad field of solar-terrestrial physics which emphasise the energy exchange between the solar wind, the magnetospheric and ionospheric plasmas, and the neutral gas. In the lower atmosphere, topics covered range from mesoscale to global scale dynamics, to atmospheric electricity, lightning and its effects, and to anthropogenic changes.
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