顺灏股份（002565）公告，公司于2025年6月20日、6月23日、6月24日连续3个交易日内收盘价格涨幅偏 离值累计超过20%，属于股票交易异常波动情形。经核查，公司近日与轨道辰光签署了相关协议，公司 出资1.1亿元人民币参与轨道辰光的本轮融资，持有轨道辰光的股份比例为19.30%。该投资金额未达到 相关规则及公司内部制度要求的审议和披露标准。公司现有业务未与轨道辰光的业务产生协同效应。轨 道辰光的"天数天算"业务可能在未来5年内有明确的商业价值，太空数据中心的"地数天算"业务可能在 未来5-10年内逐步具备与地面数据中心进行竞争的优势。 ...

Group 1 - The launch of the world's first space computing constellation marks the arrival of the "space computing era," with satellite applications transitioning from science fiction to reality, particularly in Fujian Province [1] - Over 100 units from the satellite data collection, processing, and application industry chain joined the Fujian Satellite Application Industry Alliance during the Fujian Satellite Application Industry Ecological Conference [1] - The establishment of the Digital Fujian Expert Committee's Satellite Application Expert Group aims to provide strategic consulting and technical support for industry development [1] Group 2 - The large number of satellites enables global coverage, high-frequency revisit, and rapid response, creating unprecedented opportunities for various industries [2] - Fujian is advancing the innovative application of aerospace technology in fields such as marine monitoring, emergency management, ecological governance, and smart cities, forming a "satellite+" integrated application ecosystem [2] - The Fujian Provincial Satellite Application Industry Development Three-Year Action Plan (2024-2026) aims to create satellite constellations and launch a satellite data development service platform [2] Group 3 - Fujian's satellite application industry has established a development framework characterized by policies, technology, capital, and ecosystem collaboration [3] - The collaboration involves data management agencies, university laboratories, financial institutions, and numerous enterprises to form a closed-loop ecosystem of data circulation, technological innovation, scene application, and supporting services [3]

● 本报记者 王婧涵 "无论是通信卫星、导航卫星还是遥感卫星，商业航天各项应用都逐步深入到大众的日常需求之中。大 量需求涌现让企业有动力自己发卫星，这促进了商业航天的发展，也意味着行业模式将出现很大改 变。"星图测控董事长胡煜日前在接受中证报记者专访时表示。 经过几年培育，当前我国商业航天已进入快速发展期，面向大众的应用场景不断打开，政策、技术和市 场的协同推动下，作为国家级专精特新"小巨人"企业的星图测控在航天测控管理、航天数字仿真等业务 领域都实现了快速发展。 应用场景向C端延伸 "从2015年中国商业航天元年起，商业航天的发展越来越快。特别是'十四五'以来，从卫星制造、火箭 制造到航天测运控系统、地面配套等各类软硬件，国内从事商业航天的企业越来越多，"胡煜向记者表 示，"这将进一步促进卫星在特种领域及面向大众的C端应用的发展。" 在商业航天领域，卫星主要分为通信卫星、导航卫星和遥感卫星三类，分别代表了商业航天三种主要的 应用场景。近期，我国发射的算力卫星则开启了"太空计算"的新篇章。 "由于卫星的制造成本较高，过去的航天发射往往针对特定需求，面向政府或相关B端用户，进行如自 然资源普查、气象监控等任务。 ...

新浪科技讯 6月22日下午消息，近日，晨昏轨道巨型算力卫星星座项目承建单位北京轨道辰光科技有限 公司（以下简称"轨道辰光"）宣布完成了首轮及加轮总计1.4亿元人民币的融资，投资方包括上市公司 顺灏股份及联想创投。资金将用于晨昏轨道巨型算力星座的关键技术研发、试验星发射及组网运行等。 责任编辑：王其霖 轨道辰光作为北京星辰未来空间技术研究院（以下简称"北京星空院"）首个孵化落地的产业项目，核心 任务是在地球晨昏轨道发射部署算力卫星，组成太空数据中心，利用7*24小时不间断和无大气遮挡的空 间太阳能和宇宙极寒背景辐射的散热条件发展空间智能，致力于为全球用户提供天基算力服务，实 现"天数天算"和"地数天算"。北京星空院及轨道辰光公司通过市场化的融资手段，建设重大空间基础设 施，助力商业航天和人工智能发展。 据悉，轨道辰光首颗算力试验星已经投产，并预计将于今年年底左右发射入轨，通过在晨昏轨道建设算 力星座，将有效解决地面算力中心建设制约问题，构筑兼具性能、环保以及成本优势的算力基础设施， 为我国乃至全球用户提供算力支持，并为我国实现航天强国的目标做出贡献。 近年来，随着商业航天和人工智能的快速发展，商业航天对太空算力 ...

6月21日，在"九天揽星 智创未来"太空育种（地面可视太空生物智能舱系统）成果转化 发布会上，由武汉太空农业研究院研发的全球首个地面可视太空生物智能舱亮相，同时亮相 的还有重达1090斤的我国最大太空南瓜、太空茄子树等一批太空农业创新成果。 太空育种，也称空间诱变育种，就是将农作物种子或试管种苗送到太空，利用太空特殊 的、地面无法模拟的高真空、宇宙高能离子辐射、宇宙磁场、高洁净环境诱变作用，使种子 产生变异，再返回地面选育新种子，培育新品种的作物育种新技术。太空育种具有有益的变 异多、变幅大、稳定快，以及高产、优质、早熟、抗病力强等特点。 武汉太空农业研究院院长、航天育种高级工程师张传军介绍，该院创新研发的地面可视 太空生物智能舱通过使用多种自动控制技术，实现光照、温度、湿度、气压、人工重力等生 命维持系统功能的智能调控，"太空中给植物浇水、施肥属于高难度动作，我们也解决 了。"同时，该智能舱还攻克了实时可视——工作人员在地面可实时察看种子在太空生物舱 内的生长状态。 "地面可视太空生物智能舱将解决多个行业痛点，大大提升太空育种效率。"该研究院执 行院长、湖北省地理标志产品联合会会长高雪刚说，当前，太空种子主 ...

Core Viewpoint - Lin Lanying's return to China and her contributions to the semiconductor and aerospace industries significantly advanced China's technological capabilities, particularly in semiconductor materials and space applications [1][3][12]. Group 1: Return to China - In 1956, Lin Lanying received an invitation to return to China, offering a monthly salary of 207 yuan, which was half of Mao Zedong's salary at the time [1]. - After completing her paperwork, she faced challenges at U.S. customs, where she had to defend her possession of two small bottles containing her research materials [3][5]. - The two bottles contained 500 grams of single crystal germanium and 100 grams of single crystal silicon, valued at over $200,000, which were crucial for China's semiconductor research [5][6]. Group 2: Achievements in Semiconductor Research - Upon returning to China, Lin Lanying led her team to overcome significant challenges in semiconductor material research, relying on her experience and the two precious materials she brought back [6]. - Within a year, her team successfully developed China's first single crystal germanium and later the first semiconductor radio, marking the establishment of China's semiconductor research system [6][8]. - Lin Lanying's return was delayed for a year due to her being considered a key talent in the U.S., highlighting her importance in semiconductor research [8]. Group 3: Breakthroughs in Aerospace - In the 1980s, Lin Lanying focused on utilizing microgravity environments in space to grow gallium arsenide single crystals, which are vital for high-performance electronic devices [10]. - In August 1987, her team successfully conducted the world's first space growth experiment of gallium arsenide single crystals using China's ninth return satellite, garnering international attention [10]. - This achievement marked China's advancement to an internationally competitive level in semiconductor technology and significantly contributed to the development of optical and high-speed electronic devices [10][12]. Group 4: Legacy and Impact - Lin Lanying's research not only fostered self-reliance in space materials but also made substantial contributions to China's aerospace industry [12]. - In her later years, she focused on nurturing scientific talent, particularly encouraging the growth of female scientists and promoting gender equality in education and research [12][13]. - Her contributions have left a lasting impact on China's semiconductor and aerospace sectors, demonstrating the irreversible nature of her achievements [13].

法国总统马克龙：法国将与德国、英国以及包括阿联酋和印度在内的其他国家讨论太空战略。 ...

法国总统马克龙：法国将于2026年举行太空峰会。 ...

法国总统马克龙：欧洲必须在太空领域投入更多资金。 ...

法国总统马克龙：欧洲已经克服了通过发射装置恢复进入太空的问题，现阶段应加快相关步伐。希望尽 快建立新的欧洲卫星制造龙头企业。 ...