Sparse Image Reconstruction for the SPIDER Optical Interferometric Telescope

International Conference on Photonics, Optics and Laser Technology Pub Date : 2019-03-13 DOI:10.5220/0010322601040109

L. Pratley, J. McEwen

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引用次数: 5

Abstract

The concept of a recently proposed small-scale interferometric optical imaging device, an instrument known as the Segmented Planar Imaging Detector for Electro-optical Reconnaissance (SPIDER), is of great interest for its possible applications in astronomy and space science. Due to low weight, low power consumption, and high resolution, the SPIDER telescope could replace the large space telescopes that exist today. Unlike traditional optical interferometry the SPIDER accurately retrieves both phase and amplitude information, making the measurement process analogous to a radio interferometer. State of the art sparse radio interferometric image reconstruction techniques have been gaining traction in radio astronomy and reconstruct accurate images of the radio sky. In this work we describe algorithms from radio interferometric imaging and sparse image reconstruction and demonstrate their application to the SPIDER concept telescope through simulated observation and reconstruction of the optical sky. Such algorithms are important for providing high fidelity images from SPIDER observations, helping to power the SPIDER concept for scientific and astronomical analysis.

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SPIDER光学干涉望远镜稀疏图像重建

最近提出的一种小型干涉光学成像装置的概念，一种被称为光电侦察分割平面成像探测器(SPIDER)的仪器，因其在天文学和空间科学中的应用而引起了极大的兴趣。由于重量轻，功耗低，分辨率高，蜘蛛望远镜可以取代目前存在的大型太空望远镜。与传统的光学干涉测量不同，SPIDER精确地检索相位和振幅信息，使测量过程类似于无线电干涉仪。稀疏射电干涉图像重建技术在射电天文学中得到了广泛的应用，可以重建精确的射电天空图像。本文介绍了射电干涉成像和稀疏图像重建算法，并通过对光学天空的模拟观测和重建，演示了这些算法在SPIDER概念望远镜上的应用。这些算法对于提供来自SPIDER观测的高保真图像非常重要，有助于推动SPIDER概念用于科学和天文分析。

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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International Conference on Photonics, Optics and Laser Technology

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