Spurious Solar-Wind Effects on Acceleration Noise in LISA Pathfinder

arXiv - PHYS - Space Physics Pub Date : 2024-07-31 DOI:arxiv-2407.21774

Arnold Yang, Indie Desiderio-Sloane, Grant David Meadors

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Abstract

Spurious solar-wind effects are a potential noise source in the measurements of the future Laser Interferometer Space Antenna (LISA). Comparative models are used to predict the possible impact of this noise factor and estimate spurious solar-wind effects on acceleration noise in LISA Pathfinder (LPF). Data from NASA's Advanced Composition Explorer (ACE), situated at the L1 Lagrange point, served as a reliable source of solar-wind data. The data sets were compared over the 114-day time period from March 1, 2016 to June 23, 2016. To evaluate these effects, the data from both satellites were formatted, gap-filled, and adapted for comparison, and a coherence plot comparing the results of the Fast Fourier Transformations. The coherence plot suggested that solar-wind had a minuscule effect on the LPF, and higher frequency coherence (LISA's main observing band) can be attributed to random chance correlation. This result indicates that measurable correlation due to solar-wind noise over 3-month timescales can be ruled out as a noise source. This is encouraging, although another source of noise from the sun, solar irradiance pressure, is estimated to have a more significant effect and has yet to be analyzed.

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太阳风对 LISA 探路者加速噪声的杂散影响

杂散太阳风效应是未来激光干涉仪空间天线（LISA）测量中的一个潜在噪声源。比较模型被用来预测这一噪声因素可能产生的影响，并估算杂散太阳风效应对 LISA 探路者（LPF）加速噪声的影响。位于 L1 拉格朗日点的美国国家航空航天局高级合成探测器（ACE）的数据是太阳风数据的可靠来源。这些数据集在 2016 年 3 月 1 日至 2016 年 6 月 23 日的 114 天期间进行了比较。为了评估这些影响，对来自两颗卫星的数据进行了格式化、间隙填充和调整，以便进行比较，并绘制了相干图，比较快速傅里叶变换的结果。相干图表明，太阳风对低频频谱的影响微乎其微，较高频率的相干性（LISA 的主要观测频段）可归因于随机机会相关性。这一结果表明，在 3 个月的时间尺度上，太阳风噪声造成的可测量相关性可以被排除在噪声源之外。这是令人鼓舞的，尽管来自太阳的另一个噪声源--太阳辐照度压力--估计会有更大的影响，但还有待分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Space Physics

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