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  • The universe is filled with planets, asteroids, black holes, and galaxieseach with their

  • own set of mysteries.

  • But one of the best concealed aspects of deep space lies in what scientists describe as

  • This is where dark energy and dark matter hide, interacting with the matter we

  • can actually see.

  • Scientists know very little about this dark side, other than that it's vast and it has

  • shaped the evolution of our Universepast, present, and future.

  • And since we can't see it directly, the hunt to understand dark energy and dark matter

  • has taken decades. But ESA's space telescope mission, named Euclid might just give us

  • some answers.

  • According to ESA, the universe is made of

  • about 76% dark energy, about 20% dark matter, and 4% normal, or baryonic matterwhich

  • is the stuff that makes up you, me, and everything else we can see.

  • When it comes to dark matter,

  • we can infer its presence based on the gravitational effect on visible matter, and

  • theories suggest that weak interacting massive particles, could lead to the answer.

  • But as of right now, we just know that it exists.

  • Dark energyis another astronomical head scratcher.

  • This term is used to explain the mysterious force that causes the rapid expansion of the

  • universe.

  • According to the theory of relativity, the gravitational attraction from all the matter

  • in the universe should be slowing this expansion.

  • But observations show that instead, it's speeding up.

  • In order to come to grips with this new realization, theorists have come up with other possible

  • explanations for dark energy. Maybe the universe is filled with a strange energy-fluid,

  • or it was the result of another version of Einstein's theory of general relativity that

  • involves an equation that stops expansion altogether. Or parts of

  • the theory of general relativity are wrong, and we need a new field that includes this

  • acceleration.

  • Which is why Euclid is so exciting.

  • This mission could piece together the puzzle that surrounds dark energy and dark matter,

  • and ultimately help us understand how our universe works.

  • ESA's Euclid space telescope will map the geometry of the dark Universe and provide

  • its cosmic history.

  • Euclid will observe and analyze the shape and redshift of thousands of millions of galaxies

  • spanning back 10 billion years.

  • This will provide a large-scale 3D map that allows scientists to see how dark energy has

  • played a significant role in the universe's expansion.

  • And it will do this with a few key components.

  • Other than the Silicon Carbide mirror that spans 1.2 meters in diameter, the telescope

  • will be feeding two different instruments: a visible-wavelength camera and a near-infrared

  • camera spectrometer. These instruments will be pointed at more than one third

  • of the entire sky

  • Now you might be thinking, if Euclid can't directly observe the dark universe,

  • then what will its instruments be looking at?

  • Well, the space telescope will be searching for a couple of cosmological 'red' flags.

  • The first is weak gravitational lensing.

  • In general, gravitational lensing is when the gravitational field of an object bends the light

  • that passes by it. So if we assume that dark matter is present, then astrophysicists

  • can theorize that every galaxy we observe might be subject to a minute amount of gravitational

  • lensingapproximately 1%. This is the weak lensing and it's what Euclid will be hunting for.

  • Euclid is also going to be on the hunt for Baryonic Acoustic Oscillations or what ESA

  • describes aswiggle patternswithin galaxy clusters.

  • These patterns provide a standard ruler method for measuring dark energy with the expansion

  • rate of the universe.

  • Euclid's potential is overwhelming, but we've got a little wait on our hands before

  • this space telescope starts beaming back any astronomical info.

  • Euclid won't be in the sky until 2022.

  • It's being assembled by Thales Alenia Space, Astrium Toulouse, and Airbus

  • Defence and Space.

  • Not only is this equipment coming together for the assembly of Euclid, but researchers

  • are already preparing for the massive onset of data that will be coming their way.

  • Using a dark-matter particle simulation modeled with a supercomputer, researchers created

  • the largest simulated galaxy catalogue ever made.

  • These synthetic galaxies mimic the characteristics of real galaxies, including their shapes,

  • colors, luminosities, spectra, and gravitational lensing distortions.

  • This is a critical milestone in the Euclid project, and everything the researchers are

  • preparing for will help set the foundational science for when the real data comes in.

  • Euclid plans to station for six years and when it finally takes to the skies, we'll all

  • be waiting patiently for the confirmation about the parts of the dark Universe we already

  • know, and all the parts we have yet to uncover.

  • With all the exciting missions ahead, we want to know which ones do you want to hear about?

  • Let us know below and don't forget to subscribe to Seeker, so you never miss an episode.

  • Thanks for watching and we'll see you next time on Seeker.

The universe is filled with planets, asteroids, black holes, and galaxieseach with their

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歐空局的暗能量望遠鏡將如何繪製 "暗宇宙 "圖|發射倒計時。 (How ESA’s Dark Energy Telescope Will Map the ‘Dark Universe’ | Countdown To Launch)

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    林宜悉 發佈於 2021 年 01 月 14 日
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