Simulating image coaddition with the Nancy Grace Roman Space Telescope: II. Analysis of the simulated images and implications for weak lensing

IF 4.7 3区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
Masaya Yamamoto, Katherine Laliotis, Emily Macbeth, Tianqing Zhang, Christopher M Hirata, M A Troxel, Kaili Cao, Ami Choi, Jahmour Givans, Katrin Heitmann, Mustapha Ishak, Mike Jarvis, Eve Kovacs, Heyang Long, Rachel Mandelbaum, Andy Park, Anna Porredon, Christopher W Walter, W Michael Wood-Vasey
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Abstract

One challenge for applying current weak lensing analysis tools to the Nancy Grace Roman Space Telescope is that individual images will be undersampled. Our companion paper presented an initial application of Imcom — an algorithm that builds an optimal mapping from input to output pixels to reconstruct a fully sampled combined image — on the Roman image simulations. In this paper, we measure the output noise power spectra, identify the sources of the major features in the power spectra, and show that simple analytic models that ignore sampling effects underestimate the power spectra of the coadded noise images. We compute the moments of both idealized injected stars and fully simulated stars in the coadded images, and their 1- and 2-point statistics. We show that the idealized injected stars have root-mean-square ellipticity errors (1 − 6) × 10−4 per component depending on the band; the correlation functions are ≥2 orders of magnitude below requirements, indicating that the image combination step itself is using a small fraction of the overall Roman 2nd moment error budget, although the 4th moments are larger and warrant further investigation. The stars in the simulated sky images, which include blending and chromaticity effects, have correlation functions near the requirement level (and below the requirement level in a wide-band image constructed by stacking all 4 filters). We evaluate the noise-induced biases in the ellipticities of injected stars, and explain the resulting trends with an analytical model. We conclude by enumerating the next steps in developing an image coaddition pipeline for Roman.
利用南希-格雷斯-罗曼太空望远镜模拟图像叠加:II.模拟图像分析及对弱透镜的影响
将目前的弱透镜分析工具应用于南希-格蕾丝-罗曼太空望远镜所面临的一个挑战是,单个图像的采样不足。我们的相关论文介绍了 Imcom 算法在罗曼图像模拟中的初步应用--该算法可以建立从输入到输出像素的最佳映射,以重建完全采样的组合图像。在本文中,我们测量了输出噪声功率谱,确定了功率谱中主要特征的来源,并表明忽略采样效应的简单分析模型低估了合并噪声图像的功率谱。我们计算了共叠加图像中理想化注入星和完全模拟星的矩,以及它们的 1 点和 2 点统计量。结果表明,理想化注入星的每个分量的均方根椭圆度误差(1 - 6)× 10-4,取决于波段;相关函数≥2 个数量级,低于要求,表明图像组合步骤本身只使用了整个罗马第二矩误差预算的一小部分,尽管第四矩误差较大,值得进一步研究。模拟天空图像中的恒星(包括混合和色度效应)的相关函数接近要求水平(在通过叠加所有 4 个滤光片构建的宽带图像中低于要求水平)。我们评估了注入恒星椭圆度中由噪声引起的偏差,并用一个分析模型解释了由此产生的趋势。最后,我们列举了为罗曼星开发图像协同添加管道的下一步工作。
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来源期刊
CiteScore
9.10
自引率
37.50%
发文量
3198
审稿时长
3 months
期刊介绍: Monthly Notices of the Royal Astronomical Society is one of the world''s leading primary research journals in astronomy and astrophysics, as well as one of the longest established. It publishes the results of original research in positional and dynamical astronomy, astrophysics, radio astronomy, cosmology, space research and the design of astronomical instruments.
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