This paper is aimed at finding the best separation angle between spacecraft for the three-dimensional reconstruction of solar-wind inhomogeneous structures by the CORrelation-Aided Reconstruction(CORAR) method. The analysis is based on the dual-point heliospheric observations from the STEREO HI-1 cameras. We produced synthetic HI-1 white-light images containing artificial blob-like structures in different positions in the common field of view of the two HI-1 cameras and reconstruct the structures with CORAR method. The distributions of performance levels of the reconstruction for spacecraft separation of 60∘, 90∘, 120∘ and 150∘ are obtained. It is found that when the separation angle is 120∘, the performance of the reconstruction is the best and the separation angle of 90∘ is the next. A brief discussion of the results are given as well. Based on this study, we suggest the optimal layout scheme of the recently proposed Solar Ring mission, which is designed to routinely observe the Sun and the inner heliosphere from multiple perspectives in the ecliptic plane.
@article{arxiv.2005.06838,
title = {Optimal Stereoscopic Angle for Reconstructing Solar Wind Inhomogeneous Structures},
author = {Shaoyu Lyu and Xiaolei Li and Yuming Wang},
journal= {arXiv preprint arXiv:2005.06838},
year = {2020}
}