Spzyang puqing balay na Tang’an(3,600 × 3,600 qqblayqan zzyangay, zayzyuwaw biru’ na sspngan kinkrahu’: 1.08 MB, gluw na mmntnaq MIME: image/jpeg)
Tang’an qaniy hya’ ga kahul squw維基共享資源 ruw hazi’ ana wal sptzyuwaw na cwan’an bbzinah.
Tay kyahu’ cyux spkita’ sa Tang’an qaniy hya’ ga cyux squw Tang’an pinqzyu’ zngayan na qsahuy pinqzyuwan.
Lalu’ na spzyang bbiru’ su’
Minblaq kmalDark Matter is Darker Than Once Thought (19057102495).jpg
English: These galaxy clusters are part of a large study using Chandra and Hubble that sets new limits on how dark matter - the mysterious substance that makes up most of the matter in the Universe - interacts with itself. The hot gas that envelopes the clusters glows brightly in X-rays detected by Chandra (pink). When combined with Hubble's visible light data, astronomers can map where the stars and hot gas are after the collision, as well as the inferred distribution of dark matter (blue) through the effect of gravitational lensing.
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這幅圖片原始出處為Flickr的https://flickr.com/photos/25053835@N03/19057102495 ,作者為Smithsonian Institution 。經機器人FlickreviewR在2015年Tay mqiru’ byacing27日審查後確定為採用No known copyright restrictions的協議授權使用。
Taki’ sa biru’ na kwara’ zayzyuwaw qaniy ga kwara’ kin na zayzyuwaw bbzinah, kwara’ quw zyuwaw sqaniy ga hazi’ na kahul sa pins’rux na Suwe syangciy ini’ ga tmrang squw cyux ps’rux squw Sken ini’ ga cyux tmrang smr’zyut sa Suwe .
Maha iy wal sbahun squw puqing balay na biru’ cyux syan squw ana nanu’ zyuwaw lga, iyat hazi’ baqun minblaq ppwah kruma’ quw wal minblayqun miru’ na wayal sbahun na zyuwaw hya’ la.
JPEG 檔案備註
These galaxy clusters are part of a large study using Chandra and Hubble that sets new limits on how dark matter - the mysterious substance that makes up most of the matter in the Universe - interacts with itself. The hot gas that envelopes the clusters glows brightly in X-rays detected by Chandra (pink). When combined with Hubble's visible light data, astronomers can map where the stars and hot gas are after the collision, as well as the inferred distribution of dark matter (blue) through the effect of gravitational lensing.