探讨成像节奏对CME运动学推断的影响

IF 2.6 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Frontiers in Astronomy and Space Sciences Pub Date : 2023-09-12 DOI:10.3389/fspas.2023.1232197
Nitin Vashishtha, Satabdwa Majumdar, Ritesh Patel, Vaibhav Pant, Dipankar Banerjee
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引用次数: 0

摘要

日冕物质抛射(cme)的运动学对于理解其发生机制和预测其对地球和其他行星的影响至关重要。由于大多数加速和减速发生在4r⊙以下,捕捉这一阶段对于更好地理解它们的起始机制至关重要。此外,日冕内日冕cme的运动学(<(3r⊙)与它们在外日冕的传播和它们最终对地球的影响密切相关。由于日冕仪数据主要用于探测日冕活动的运动学,因此研究成像节奏对数据分析精度和由此得出的结论的影响以及确定即将到来的日冕仪设计观测活动的灵活性至关重要。本文研究了成像节奏对莫纳罗亚太阳天文台k日冕仪观测到的10次日冕抛射的运动学影响。我们使用K-Cor的高节奏(15秒)白光观测来手动跟踪cme,并将节奏变化为30秒,1分钟,2分钟和5分钟,以研究节奏对运动学的影响。我们还采用自举法估计拟合参数的置信区间。研究结果表明,日冕物质抛射的平均速度对成像节奏的依赖程度不高,而平均加速度对成像节奏的依赖程度显著,不同节奏下平均加速度的置信区间有显著变化。在加速开始时间的估计中也可以看到节奏退化的影响。我们进一步发现,很难找到一个最佳的节奏来研究所有的日冕物质抛射,因为它也受到仪器像素分辨率和日冕物质抛射速度的影响。然而,除了非常慢的日冕物质抛射(速度小于300 km−1)外,我们的结果表明,1分钟的节奏对于研究它们的运动学是合理的。这项工作的结果将对现有的和即将进行的观测内日冕任务的观测活动规划非常重要。
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Exploring the impact of imaging cadence on inferring CME kinematics
The kinematics of coronal mass ejections (CMEs) are crucial for understanding their initiation mechanism and predicting their impact on Earth and other planets. With most of the acceleration and deceleration occurring below 4 R ⊙ , capturing this phase is vital to better understand their initiation mechanism. Furthermore, the kinematics of CMEs in the inner corona ( < 3 R ⊙ ) are closely related to their propagation in the outer corona and their eventual impact on Earth. Since the kinematics of CMEs are mainly probed using coronagraph data, it is crucial to investigate the impact of imaging cadence on the precision of data analysis and the conclusions drawn from it and also for determining the flexibility of designing observational campaigns with upcoming coronagraphs. This study investigates the impact of imaging cadence on the kinematics of ten CMEs observed by the K-Coronagraph of the Mauna Loa Solar Observatory. We manually track the CMEs using high cadence (15 s) white-light observations of K-Cor and vary the cadence as 30 s, 1, 2, and 5 min to study the impact of cadence on the kinematics. We also employed the bootstrapping method to estimate the confidence interval of the fitting parameters. Our results indicate that the average velocity of the CMEs does not have a high dependence on the imaging cadence, while the average acceleration shows significant dependence on the same, with the confidence interval showing significant shifts for the average acceleration for different cadences. The impact of degraded cadence is also seen in the estimation of the time of onset of acceleration. We further find that it is difficult to find an optimum cadence to study all CMEs, as it is also influenced by the pixel resolution of the instrument and the speed of the CME. However, except for very slow CMEs (speeds less than 300 km −1 ), our results indicate a cadence of 1 min to be reasonable for the study of their kinematics. The results of this work will be important in the planning of observational campaigns for the existing and upcoming missions that will observe the inner corona.
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来源期刊
Frontiers in Astronomy and Space Sciences
Frontiers in Astronomy and Space Sciences ASTRONOMY & ASTROPHYSICS-
CiteScore
3.40
自引率
13.30%
发文量
363
审稿时长
14 weeks
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