SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2022280738> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2022280738 abstract "We investigate in detail the possibility that a single imperfect fluid with bulk viscosity can replace the need for separate dark matter and dark energy in cosmological models. With suitable choices of model parameters, we show that the background cosmology in this model can mimic that of a $ensuremath{Lambda}mathrm{CDM}$ universe to high precision. However, as the cosmic expansion goes through the decelerating-accelerating transition, the density perturbations in this fluid are rapidly damped out. We show that, although this does not significantly affect structure formation in baryonic matter, it makes the gravitational potential decay rapidly at late times, leading to modifications in predictions of cosmological observables such as the CMB power spectrum and weak lensing. This model of unified dark matter is thus difficult to reconcile with astronomical observations. We also clarify the differences with respect to other unified dark matter models where the fluid is barotropic, i.e., $p=p(ensuremath{rho})$, such as the (generalized) Chaplygin gas model, and point out their observational difficulties. We also summarize the status of dark sector models with no new dynamical degrees of freedom introduced and discuss the problems with them." @default.
W2022280738 created "2016-06-24" @default.
W2022280738 creator A5035769834 @default.
W2022280738 creator A5035995869 @default.
W2022280738 date "2009-05-21" @default.
W2022280738 modified "2023-10-18" @default.
W2022280738 title "Does bulk viscosity create a viable unified dark matter model?" @default.
W2022280738 cites W1480683212 @default.
W2022280738 cites W1568079693 @default.
W2022280738 cites W1694599977 @default.
W2022280738 cites W1701014456 @default.
W2022280738 cites W1853767801 @default.
W2022280738 cites W188525770 @default.
W2022280738 cites W1927748782 @default.
W2022280738 cites W1963581370 @default.
W2022280738 cites W1965391050 @default.
W2022280738 cites W1975756206 @default.
W2022280738 cites W1983204369 @default.
W2022280738 cites W1990793615 @default.
W2022280738 cites W1999748431 @default.
W2022280738 cites W2007203816 @default.
W2022280738 cites W2021634518 @default.
W2022280738 cites W2029044528 @default.
W2022280738 cites W2034896312 @default.
W2022280738 cites W2041274287 @default.
W2022280738 cites W2041639733 @default.
W2022280738 cites W2042923688 @default.
W2022280738 cites W2043489067 @default.
W2022280738 cites W2046744141 @default.
W2022280738 cites W2047788593 @default.
W2022280738 cites W2056023460 @default.
W2022280738 cites W2058803834 @default.
W2022280738 cites W2063210889 @default.
W2022280738 cites W2073832139 @default.
W2022280738 cites W2083322739 @default.
W2022280738 cites W2087321685 @default.
W2022280738 cites W2087496193 @default.
W2022280738 cites W2087739892 @default.
W2022280738 cites W2090497620 @default.
W2022280738 cites W2102463454 @default.
W2022280738 cites W2108313227 @default.
W2022280738 cites W2124601931 @default.
W2022280738 cites W2124639732 @default.
W2022280738 cites W2124947510 @default.
W2022280738 cites W2131279590 @default.
W2022280738 cites W2139440433 @default.
W2022280738 cites W2142560826 @default.
W2022280738 cites W2153811626 @default.
W2022280738 cites W2154748230 @default.
W2022280738 cites W2160215509 @default.
W2022280738 cites W2162899532 @default.
W2022280738 cites W2315645652 @default.
W2022280738 cites W3098414429 @default.
W2022280738 cites W3100039698 @default.
W2022280738 cites W3101552951 @default.
W2022280738 cites W3105747873 @default.
W2022280738 cites W3125067363 @default.
W2022280738 doi "https://doi.org/10.1103/physrevd.79.103521" @default.
W2022280738 hasPublicationYear "2009" @default.
W2022280738 type Work @default.
W2022280738 sameAs 2022280738 @default.
W2022280738 citedByCount "148" @default.
W2022280738 countsByYear W20222807382012 @default.
W2022280738 countsByYear W20222807382013 @default.
W2022280738 countsByYear W20222807382014 @default.
W2022280738 countsByYear W20222807382015 @default.
W2022280738 countsByYear W20222807382016 @default.
W2022280738 countsByYear W20222807382017 @default.
W2022280738 countsByYear W20222807382018 @default.
W2022280738 countsByYear W20222807382019 @default.
W2022280738 countsByYear W20222807382020 @default.
W2022280738 countsByYear W20222807382021 @default.
W2022280738 countsByYear W20222807382022 @default.
W2022280738 countsByYear W20222807382023 @default.
W2022280738 crossrefType "journal-article" @default.
W2022280738 hasAuthorship W2022280738A5035769834 @default.
W2022280738 hasAuthorship W2022280738A5035995869 @default.
W2022280738 hasBestOaLocation W20222807382 @default.
W2022280738 hasConcept C118534291 @default.
W2022280738 hasConcept C121332964 @default.
W2022280738 hasConcept C127172972 @default.
W2022280738 hasConcept C154153549 @default.
W2022280738 hasConcept C159249277 @default.
W2022280738 hasConcept C172790937 @default.
W2022280738 hasConcept C181556327 @default.
W2022280738 hasConcept C207297109 @default.
W2022280738 hasConcept C26405456 @default.
W2022280738 hasConcept C2777515927 @default.
W2022280738 hasConcept C2781419962 @default.
W2022280738 hasConcept C29712183 @default.
W2022280738 hasConcept C29761201 @default.
W2022280738 hasConcept C33332235 @default.
W2022280738 hasConcept C44870925 @default.
W2022280738 hasConcept C57879066 @default.
W2022280738 hasConcept C62520636 @default.
W2022280738 hasConcept C66157390 @default.
W2022280738 hasConcept C72838231 @default.
W2022280738 hasConcept C85725439 @default.
W2022280738 hasConceptScore W2022280738C118534291 @default.
W2022280738 hasConceptScore W2022280738C121332964 @default.