与瓦比进行跨天文台协调:观测多信使瞬变事件的新工具

Monica Seglar-Arroyo, Halim Ashkar, Mathieu de Bony de Lavergne, Fabian Schüssler
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引用次数: 0

摘要

随着引力波的直接发现和用于多信使研究的新一代仪器的出现,时域天体物理学突飞猛进。多信使多波长团体有效开展后续观测的能力受到众多瞬变事件定位不理想和警报数量不断增加的阻碍。因此,我们开发了一种有效的工具来克服多信使天体物理学这一新兴领域固有的观测和技术障碍。我们介绍的 tilepy 是一个 Python 软件包,用于自动安排对局部性较差的瞬变事件的跟踪观测。它非常适合在有或没有人工干预的情况下应对中视场和小视场望远镜运动中复杂的跟踪观测挑战。我们展示了tilepy在多天文台、多波长活动中的能力,以覆盖各种事件的定位不确定性区域,最终精确定位多信使发射源。tilepy代码在GitHub上公开发布,具有足够的灵活性,既可自动使用,也可根据合作和个人要求定制使用。tilepy还可通过公共应用程序接口和Astro-COLIBRI平台访问。
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Cross Observatory Coordination with tilepy: A Novel Tool for Observations of Multimessenger Transient Events
Time-domain astrophysics has leaped forward with the direct discovery of gravitational waves and the emergence of new generation instruments for multimessenger studies. The capacity of the multimessenger multiwavelength community to effectively pursue follow-up observations is hindered by the suboptimal localization of numerous transient events and the escalating volume of alerts. Thus, we have developed an effective tool to overcome the observational and technical hurdles inherent in the emerging field of multimessenger astrophysics. We present tilepy, a Python package for the automatic scheduling of follow-up observations of poorly localized transient events. It is ideally suited to tackle the challenge of complex follow-up in mid- and small-field-of-view telescope campaigns, with or without human intervention. We demonstrate the capabilities of tilepy in the realm of multiobservatory, multiwavelength campaigns, to cover the localization uncertainty region of various events ultimately aiming at pinpointing the source of the multimessenger emission. The tilepy code is publicly available on GitHub and is sufficiently flexible to be employed either automatically or in a customized manner, tailored to collaboration and individual requirements. tilepy is also accessible via a public API and through the Astro-COLIBRI platform.
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