stardust in the early universe erik elfgren luleå university of technology swedish national...
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![Page 1: Stardust in the Early Universe Erik Elfgren Luleå University of Technology Swedish National Graduate School of Space Technology](https://reader030.vdocument.in/reader030/viewer/2022032800/56649d445503460f94a20fb8/html5/thumbnails/1.jpg)
Stardustin the
Early Universe
Erik ElfgrenLuleå University of Technology
Swedish National GraduateSchool of Space Technology
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Acknowledgements
Supervisors
Sverker FredrikssonJohnny Ejemalm
Collaborators
François-Xavier Désert – Grenoble
Bruno Guiderdoni – Lyon
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History of the Universe
Cosmic Microwave Background
Dust
My Research
Conclusions
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Early historyHistory of the Universe
• Big Bang13.7 billion years agoRapid expansion
• First atoms formed1 min after the BB75% H25% He<1% D, Li, He-3Duration: 3 min No heavier elements
?
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History of the UniverseDecoupling• Plenty of high E photons
Photons ionize H
• When T ~ 3000 KPhotons can’t ionize No interaction Photons unchanged
until today Cosmic Microwave Background (CMB)300,000 years after Big Bang
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History of the UniverseThe Dark Ages
• Photons cool
• Matter contract through gravitation
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• First Generation of Stars~1 billion years after Big Bang~100 times heavier than the Sun~1 million years before they dieFinish as supernovae Dust
• Galaxy formation10 times more Dark Matter Dark Matter shepherds normal matter
History of the UniverseStructure Formation
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History of the UniverseStructure Formation
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History of the UniverseStructure Formation
Star birthStar death
Supernova
Dust
Dust ejection
Dust accretion
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History of the UniverseSummary
• Big Bangrapid expansion
• First atoms1 min
• Decoupling300,000 years
• First stars & galaxies1 billion years
• Today13.7 billion years
CMB
Dust
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Cosmic Microwave BackgroundCMB
• 300,000 years after BB:T ~ 3000 K
• 13.7 billion years after BB:T ~ 3 K
• Everywhere
• Black Body radiationlike the Sun
• T = 2.725 K = Microwaves
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Cosmic Microwave BackgroundWhy is the CMB interesting?
• Expansion rate Age of the Universe
• Amount of Dark Matter, Dark Energy Shape of the Universe
• Matter distribution at t = 300,000 years Closing in on the Big Bang
• Structure formation How the first galaxiesand stars form
Stephen Hawking: “It is the discovery of the century, if not of all time.”
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Cosmic Microwave BackgroundHow?
• Temperature map(whole sky)
Power Spectrum= angularcorrelations
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DustWhy is the dust interesting?
• Absorbs CMB light
• Absorbs star light
• Emits radiation similar to the CMB
• Comes from the first stars
Star light
CMB light
Dust emission
Supernova
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• Supernovae ejects heavierelements such as C, Si, O, N, Fewhich condense into dust:CO, SiO2, Al2O3, …
DustCreation
• Friction with Gas and Dust• High energy photons• Cosmic rays
Mean life timeΔt = 30 million – 10 billion years
Destruction
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• Dust life timesΔt = 108, 109 and 1010 years
• Dust production Star formation
• Dust distribution Dark Matter distribution
My ResearchModel
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My Research
• IntensityLike CMB but also
Dust Spectrum
2
(CMB)In
tens
ity
Observed wavelength
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My Research
• Temporal distribution
Dust Distribution
13.5 billion years ago
12.5 billion years ago
Rel
ativ
e du
st d
ensi
ty
Time from now
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My Research
• Spatial distribution
Dust Distribution
Ang
ular
co
rrel
atio
n
180º/angle
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ConclusionsDetection with Planck
Ang
ular
co
rrel
atio
n
180º/angle
• Seems possible
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ConclusionsSummary
• First stars star dust• Star dust emit radiation• The radiation might be detected with Planck
Outlook• Collaboration with Lyon• Simulation of the first galaxies• Dust influence on their properties
Supernova Star light
CMB light
Dust emission
Planck detector
1st stars Dust