Development of Binary Black Hole Observation Satellite “ORBIS”

TRANSACTIONS OF THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES, AEROSPACE TECHNOLOGY JAPAN Pub Date : 1900-01-01 DOI:10.2322/TASTJ.17.477

J. Matsushima, H. Sahara, Shogo Asano, Masahiro Kaku, T. Kanda, M. Banno, Hirohisa Asano, Yuya Kobayashi, Natsumi Kimura, N. Yamashita, Y. Ezoe, K. Ishikawa, Kasumi Nakakamura, M. Numazawa, K. Takeuchi, Masaru Terada, Daiki Ishii, Y. Noda, M. Fujitani, N. Isobe, H. Nakajima, N. Miyamura

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引用次数: 2

Abstract

We have been developing a microsatellite based on our concept of a satellite to meet the potential needs of challenging space-science missions that only a microsatellite can accomplish. A binary black hole (BBH) is a state in which two black holes at the center of their respective galaxies are closing the orbital distance around each other. Observations using conventional large satellites have obtained insufficient results for BBH exploration because the satellites cannot be engaged in the long -term and concentrated observation of astral body such as BBH which is not established the existence. Microsatellites have two advantages; namely, they can be occupied with long-term observation, and they have a low-cost and short-term development compared with large satellites. Thus, we can possibly program a challenging mission for a microsatellite, even with a certain risk. We implemented two key technologies on our microsatellite named ORbiting Binary black-hole Investigation Satellite (ORBIS), namely, a Distributed Architectu re with a Common Signboard System and mission-equipment space for astronomical observation equipment. The specifications and progress of each subsystem are reported in this paper, along with an outline and the current status of the ORBIS development.

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双黑洞观测卫星“ORBIS”的研制

我们一直在根据我们的卫星概念开发微型卫星，以满足只有微型卫星才能完成的具有挑战性的空间科学任务的潜在需求。双黑洞(BBH)是一种处于各自星系中心的两个黑洞正在缩小彼此周围轨道距离的状态。由于传统的大型卫星无法对BBH这样尚未确定存在的星体进行长期、集中的观测，因此对BBH探测的观测结果不足。微型卫星有两个优点;即，它们可以用于长期观测，与大型卫星相比，它们具有低成本和短期发展的特点。因此，即使有一定的风险，我们也有可能为微卫星制定一个具有挑战性的任务。我们在轨道双星黑洞调查卫星(ORBIS)上实现了两项关键技术，即具有公共标牌系统的分布式体系结构和用于天文观测设备的任务设备空间。本文报告了各个子系统的规格和进展，以及ORBIS开发的概要和现状。

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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TRANSACTIONS OF THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES, AEROSPACE TECHNOLOGY JAPAN

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