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Warm–hot intergalactic medium

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Computer simulation showing the distribution of warm-hot intergalactic gas

The warm–hot intergalactic medium (WHIM) is the sparse, warm-to-hot (105 to 107 K) plasma that cosmologists believe to exist in the spaces between galaxies and to contain 40–50%[1][2] of the baryonic 'normal matter' in the universe at the current epoch.[3] The WHIM can be described as a web of hot, diffuse gas stretching between galaxies, and consists of plasma, as well as atoms and molecules, in contrast to dark matter. The WHIM is a proposed solution to the missing baryon problem, where the observed amount of baryonic matter does not match theoretical predictions from cosmology.[4]

Much of what is known about the warm–hot intergalactic medium comes from computer simulations of the cosmos.[5] The WHIM is expected to form a filamentary structure of tenuous, highly ionized baryons with a density of 1−10 particles per cubic meter.[6] Within the WHIM, gas shocks are created as a result of active galactic nuclei, along with the gravitationally-driven processes of merging and accretion. Part of the gravitational energy supplied by these effects is converted into thermal emissions of the matter by collisionless shock heating.[1]

Because of the high temperature of the medium, the expectation is that it is most easily observed from the absorption or emission of ultraviolet and low energy X-ray radiation. To locate the WHIM, researchers examined X-ray observations of a rapidly growing supermassive black hole known as an active galactic nucleus, or AGN. Oxygen atoms in the WHIM were seen to absorb X-rays passing through the medium.[7] In May 2010, a giant reservoir of WHIM was detected by the Chandra X-ray Observatory lying along the wall-shaped structure of galaxies (Sculptor Wall) some 400 million light-years from Earth.[7][8] In 2018, observations of highly-ionized extragalactic oxygen atoms appeared to confirm simulations of the WHIM mass distribution.[4] Observations for dispersion from fast radio bursts in 2020, further appeared to confirm the missing baryonic mass to be located at the WHIM.[9]

Circumgalactic medium

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Conceptually similar to WHIM, circumgalactic medium (CGM) is a halo of gas between the ISM and virial radii surrounding galaxies that is diffuse, and nearly invisible.[10] Current thinking is that the CGM is an important source of star-forming material, and that it regulates a galaxy’s gas supply. If visible, the CGM of the Andromeda Galaxy (1.3-2 million ly) would stretch 3 times the size of the width of the Big Dipper—easily the biggest feature on the nighttime sky, and even bump into our own CGM, though that isn't fully known because we reside in it. There are two layered parts to Andromeda CGM: an inner shell of gas is nested inside an outer shell. The inner shell (0.5 million ly) is more dynamic and is thought to be more dynamic and turbulent because of outflows from supernova, and the outer shell is hotter and smoother.[11]

See also

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References

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  1. ^ a b Bykov, A. M.; et al. (February 2008), "Equilibration Processes in the Warm-Hot Intergalactic Medium", Space Science Reviews, 134 (1–4): 141–153, arXiv:0801.1008, Bibcode:2008SSRv..134..141B, doi:10.1007/s11214-008-9309-4, S2CID 17801881.
  2. ^ Moskvitch, Katia (16 September 2018). "Astronomers Have Found The Universe's Missing Matter - For decades, some of the atomic matter in the universe had not been located. Recent papers reveal where it's been hiding". Wired. Retrieved 16 September 2018.
  3. ^ Reimers, D. (2002), "Baryons in the diffuse intergalactic medium", Space Science Reviews, 100 (1/4): 89, Bibcode:2002SSRv..100...89R, doi:10.1023/A:1015861926654, S2CID 122465345
  4. ^ a b Nicastro, F.; et al. (June 2018), "Observations of the missing baryons in the warm-hot intergalactic medium", Nature, 558 (7710): 406–409, arXiv:1806.08395, Bibcode:2018Natur.558..406N, doi:10.1038/s41586-018-0204-1, PMID 29925969, S2CID 49347964.
  5. ^ Ryden, Barbara; Pogge, Richard (June 2016), Interstellar and Intergalactic Medium, Ohio State Graduate Astrophysics Series, The Ohio State University, pp. 240−244, ISBN 978-1-914602-02-7{{citation}}: CS1 maint: ignored ISBN errors (link)
  6. ^ Nicastro, Fabrizio; et al. (January 2008). "Missing Baryons and the Warm-Hot Intergalactic Medium". Science. 319 (5859): 55–57. arXiv:0712.2375. Bibcode:2008Sci...319...55N. doi:10.1126/science.1151400. PMID 18174432. S2CID 10622539.
  7. ^ a b "Huge Chunk of Universe's Missing Matter Found". Space.com. Retrieved 2016-12-05.
  8. ^ "Last "Missing" Normal Matter Is Found - Sky & Telescope". 14 May 2010.
  9. ^ Macquart, J.-P.; et al. (May 2020), "A census of baryons in the Universe from localized fast radio bursts", Nature, 581 (7809): 391–395, arXiv:2005.13161, Bibcode:2020Natur.581..391M, doi:10.1038/s41586-020-2300-2, PMID 32461651, S2CID 218900828.
  10. ^ Tumlinson, Jason; Peeples, Molly S.; Werk, Jessica K. (2017-08-18). "The Circumgalactic Medium". Annual Review of Astronomy and Astrophysics. 55 (1): 389–432. arXiv:1709.09180. doi:10.1146/annurev-astro-091916-055240. ISSN 0066-4146.
  11. ^ "Hubble Shows the True Size of Andromeda". September 2020.