2026年1月26日 / 美国东部时间下午2:26 / CBS/美联社
一张新的遥远星系高分辨率图谱可能帮助科学家们理解一种神秘的无形物质,这种物质维系着整个宇宙的结构。
我们周围的普通物质——恒星、行星和人类——仅占宇宙的5%。几十年来,研究人员一直希望揭开所谓暗物质的神秘面纱,这种物质构成了宇宙略多于四分之一的质量。而另一种同样神秘的力量暗能量则构成了剩余部分。
暗物质不吸收也不释放光线,因此科学家无法直接研究它。但他们可以观测到它的引力如何扭曲和弯曲周围的物质——例如,来自遥远星系的光线。通过研究宇宙大片区域中的这些扭曲现象,科学家们可以更接近揭开暗物质及其各种隐藏位置的奥秘。
这张NASA图片展示了两个巨大的星系团,此前由NASA的詹姆斯·韦伯太空望远镜和钱德拉X射线天文台捕捉到,其中可能存在暗物质的区域以蓝色显示。图片来源:太空望远镜科学研究所公共事务办公室 / 美联社
美国国家航空航天局表示,这张最新图谱是利用詹姆斯·韦伯太空望远镜的图像制作的,是迄今为止在如此广阔的天空区域中最详细的图谱。韦伯望远镜识别出了近80万个星系,其中一些是首次被探测到。
这张图谱的分辨率是哈勃太空望远镜之前尝试的两倍,捕捉到了过去100亿年中数十万个星系的数据。
“现在,我们可以更清晰地看到一切,”美国宇航局喷气推进实验室的研究作者戴安娜·斯科尼亚米利奥表示。
这张最新图谱于周一发表在《自然·天文学》杂志上,包含了关于新星系团以及连接它们的暗物质丝状体的信息。这些结构一点点地构成了宇宙的骨架。科学家们可以研究这张图谱,了解暗物质在数十亿年中是如何聚集的。
暗物质对你中午的午餐订单或夜间的就寝习惯没有太大影响,但它会不断无声地穿过你的身体,并且塑造了整个宇宙。
“每当我们看到数千个星系的大集群时,我们也会在同一位置看到同等质量的暗物质。而当我们看到连接两个这样的集群的稀薄普通物质丝状体时,我们也会看到一条暗物质丝状体,”该研究的合著者、天体物理学家理查德·梅西表示。
哈佛-史密森天体物理学中心的天体物理学家鲁图帕娜·达斯表示,作为人类,我们天生好奇,想更多地了解我们的起源,而这个故事没有暗物质是无法讲述的。
“我们的家园是宇宙,我们想了解它的本质,”达斯说道,她并未参与这项新研究。
本月早些时候,一个研究团队发现了一种新型天体,被称为“Cloud-9”,美国国家航空航天局将其描述为“无星、富气、暗物质”氢云,是大约1400万光年外地球附近宇宙早期形成的遗迹。
Mysterious dark matter seen in new high-resolution map of distant galaxies
January 26, 2026 / 2:26 PM EST / CBS/AP
A new high-resolution map of distant galaxies may help scientists understand a mysterious invisible substance that helps hold the universe together.
The ordinary matter all around us — stars, planets and people — makes up just 5% of the universe. For decades, researchers have hoped to demystify what’s known as dark matter, a material that comprises just over a quarter of our universe. Another equally mysterious force called dark energy makes up the rest.
Dark matter doesn’t absorb or give off light so scientists can’t study it directly. But they can observe how its gravity warps and bends the star stuff around it — for example, the light from distant galaxies. By studying these distortions across large swathes of the universe, scientists can get closer to unmasking dark matter and its various hiding places.
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This NASA image shows two massive galaxy clusters previously captured by NASA’s James Webb Space Telescope and Chandra X-ray Observatory, with areas of possible dark matter in blue. Space Telescope Science Institute Office of Public Outreach / AP
The latest map, created with images from NASA’s James Webb Space Telescope, is the most detailed yet over such a large patch of sky. The Webb telescope identified nearly 800,000 galaxies, some of which were detected for the first time, NASA said.
The map has twice the resolution of previous attempts using the Hubble Space Telescope and captures hundreds of thousands of galaxies over the past 10 billion years.
“Now, we can see everything more clearly,” said study author Diana Scognamiglio with NASA’s Jet Propulsion Laboratory.
The latest map, published Monday in the journal Nature Astronomy, includes information on new galaxy clusters and the strands of dark matter that connect them. Piece by piece, these structures help form the skeleton of the universe. Scientists can study this map to see how dark matter has clumped up over billions of years.
Dark matter doesn’t have much of an impact on your midday lunch order or your nightly bedtime ritual. But it silently passes through your body all the time and has shaped the universe.
“Wherever we see a big cluster of thousands of galaxies, we also see an equally massive amount of dark matter in the same place. And when we see a thin string of regular matter connecting two of those clusters, we see a string of dark matter as well,” said astrophysicist Richard Massey, a coauthor of the study.
As humans, we’re naturally curious to know more about where we come from and that story can’t be told without dark matter, said astrophysicist Rutuparna Das with the Harvard-Smithsonian Center for Astrophysics.
“Our home is the universe and we want to understand what the nature of it is,” said Das, who was not involved with the new study.
Earlier this month, a team of researchers discovered a new type of astronomical object dubbed “Cloud-9” that NASA described as a “starless, gas-rich dark-matter” hydrogen cloud and remnant of the universe’s early formation about 14 million light-years from Earth.
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