Formation of galaxies and large-scale structure with cold dark matter | Zendy

George R. Blumenthal | Zendy; S. M. Faber | Zendy; Joel R. Primack | Zendy; M. J. Rees | Zendy

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Formation of galaxies and large-scale structure with cold dark matter

Author(s) -

George R. Blumenthal,

S. M. Faber,

Joel R. Primack,

M. J. Rees

Publication year - 1984

Publication title -

nature

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 15.993

H-Index - 1226

eISSN - 1476-4687

pISSN - 0028-0836

DOI - 10.1038/311517a0

Subject(s) - physics , astrophysics , dark matter , cold dark matter , galaxy , hot dark matter , structure formation , universe , fluctuation spectrum , galaxy formation and evolution , velocity dispersion , dark fluid , dark galaxy , axion , scalar field dark matter , warm dark matter , mixed dark matter , cosmology , astronomy , disc , dark energy

The dark matter that appears to be gravitationally dominant on all scales larger than galactic cores may consist of axions, stable photinos, or other collisionless particles whose velocity dispersion in the early Universe is so small that fluctuations of galactic size or larger are not damped by free streaming. An attractive feature of this cold dark matter hypothesis is its considerable predictive power: the post-recombination fluctuation spectrum is calculable, and it in turn governs the formation of galaxies and clusters. Good agreement with the data is obtained for a Zeldovich (|δk|2 ∝ k) spectrum of primordial fluctuations.

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