Inflation and mixed dark matter models

Recent observations of large-scale structure, including those by COBE, have prompted many authors to discuss modifications of the standard cold dark matter model. Two of these, a tilted spectrum and a gravitational wave contribution to the COBE signal, are at some level demanded by theory under the...

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Veröffentlicht in:	Monthly notices of the Royal Astronomical Society 1993-11, Vol.265 (2), p.379-384
Hauptverfasser:	Liddle, Andrew R., Lyth, David H.
Format:	Artikel
Sprache:	eng
Schlagworte:	Astronomy dark matter Dark matter (stellar, interstellar, galactic, and cosmological) early Universe Earth, ocean, space Exact sciences and technology Fundamental astronomy and astrophysics. Instrumentation, techniques, and astronomical observations large-scale structure of Universe
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container_title	Monthly notices of the Royal Astronomical Society
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creator	Liddle, Andrew R. Lyth, David H.
description	Recent observations of large-scale structure, including those by COBE, have prompted many authors to discuss modifications of the standard cold dark matter model. Two of these, a tilted spectrum and a gravitational wave contribution to the COBE signal, are at some level demanded by theory under the usual assumption that inflation generates the primeval perturbations. A third modification, the motivation for which comes by contrast from observation, is the introduction of a component of hot dark matter, to give the mixed dark matter model. We discuss the implications of taking these modifications together, and compare with a range of observational data including microwave anisotropies, bulk flows and cluster and quasar abundances. Models without a hot component fare badly, while those with such a component, either with or without mild inflationary corrections, can explain the data, although marginally. If a hot dark matter component is the mechanism of choice to explain the data, very strong constraints on inflationary models will ensue.
doi_str_mv	10.1093/mnras/265.2.379
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Two of these, a tilted spectrum and a gravitational wave contribution to the COBE signal, are at some level demanded by theory under the usual assumption that inflation generates the primeval perturbations. A third modification, the motivation for which comes by contrast from observation, is the introduction of a component of hot dark matter, to give the mixed dark matter model. We discuss the implications of taking these modifications together, and compare with a range of observational data including microwave anisotropies, bulk flows and cluster and quasar abundances. Models without a hot component fare badly, while those with such a component, either with or without mild inflationary corrections, can explain the data, although marginally. If a hot dark matter component is the mechanism of choice to explain the data, very strong constraints on inflationary models will ensue.</description><subject>Astronomy</subject><subject>dark matter</subject><subject>Dark matter (stellar, interstellar, galactic, and cosmological)</subject><subject>early Universe</subject><subject>Earth, ocean, space</subject><subject>Exact sciences and technology</subject><subject>Fundamental astronomy and astrophysics. 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source	Oxford University Press Journals Digital Archive Legacy; Oxford Journals Open Access Collection; EZB-FREE-00999 freely available EZB journals
subjects	Astronomy dark matter Dark matter (stellar, interstellar, galactic, and cosmological) early Universe Earth, ocean, space Exact sciences and technology Fundamental astronomy and astrophysics. Instrumentation, techniques, and astronomical observations large-scale structure of Universe
title	Inflation and mixed dark matter models
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