SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2103305323> ?p ?o ?g. }

Showing items 1 to 100 of ±133 with 100 items per page.

W2103305323 abstract "Recently, a number of analytic prescriptions for computing the nonlinear matter power spectrum have appeared in the literature. These typically involve resummation or closure prescriptions which do not have a rigorous error control, thus they must be compared with numerical simulations to assess their range of validity. We present a direct side-by-side comparison of several of these analytic approaches, using a suite of high-resolution N-body simulations as a reference, and discuss some general trends. All of the analytic results correctly predict the behavior of the power spectrum at the onset of nonlinearity, and improve upon a pure linear theory description at very large scales. All of these theories fail at sufficiently small scales. At low redshift the dynamic range in scale where perturbation theory is both relevant and reliable can be quite small. We also compute for the first time the two-loop contribution to standard perturbation theory for cold dark matter models, finding improved agreement with simulations at large redshift. At low redshifts however the two-loop term is larger than the one-loop term on quasilinear scales, indicating a breakdown of the perturbation expansion. Finally, we comment on possible implications of our results for future studies. A software package implementing the methods presented here is available at http://mwhite.berkeley.edu/Copter." @default.
W2103305323 created "2016-06-24" @default.
W2103305323 creator A5054431009 @default.
W2103305323 creator A5065077728 @default.
W2103305323 creator A5086757159 @default.
W2103305323 date "2009-08-31" @default.
W2103305323 modified "2023-10-01" @default.
W2103305323 title "Critical look at cosmological perturbation theory techniques" @default.
W2103305323 cites W1964512596 @default.
W2103305323 cites W1965027045 @default.
W2103305323 cites W1965556710 @default.
W2103305323 cites W1970495075 @default.
W2103305323 cites W1978879626 @default.
W2103305323 cites W1986074487 @default.
W2103305323 cites W1988765939 @default.
W2103305323 cites W1994651847 @default.
W2103305323 cites W2001724607 @default.
W2103305323 cites W2030392256 @default.
W2103305323 cites W2031912655 @default.
W2103305323 cites W2045209379 @default.
W2103305323 cites W2048676236 @default.
W2103305323 cites W2051945332 @default.
W2103305323 cites W2052773107 @default.
W2103305323 cites W2059952971 @default.
W2103305323 cites W2060880068 @default.
W2103305323 cites W2061840558 @default.
W2103305323 cites W2061923933 @default.
W2103305323 cites W2062690334 @default.
W2103305323 cites W2069251437 @default.
W2103305323 cites W2080766750 @default.
W2103305323 cites W2083556166 @default.
W2103305323 cites W2092193261 @default.
W2103305323 cites W2094015484 @default.
W2103305323 cites W2110733908 @default.
W2103305323 cites W2114744410 @default.
W2103305323 cites W2123234601 @default.
W2103305323 cites W2127258377 @default.
W2103305323 cites W2129822685 @default.
W2103305323 cites W2131226829 @default.
W2103305323 cites W2136355405 @default.
W2103305323 cites W2156426159 @default.
W2103305323 cites W2165098241 @default.
W2103305323 cites W2167334719 @default.
W2103305323 cites W2169866137 @default.
W2103305323 cites W3098221464 @default.
W2103305323 cites W3100414533 @default.
W2103305323 cites W3101849758 @default.
W2103305323 cites W3102959394 @default.
W2103305323 cites W3103369699 @default.
W2103305323 cites W3103594513 @default.
W2103305323 cites W3104321121 @default.
W2103305323 cites W3104582474 @default.
W2103305323 cites W3106540241 @default.
W2103305323 cites W4290700930 @default.
W2103305323 cites W4301626820 @default.
W2103305323 doi "https://doi.org/10.1103/physrevd.80.043531" @default.
W2103305323 hasPublicationYear "2009" @default.
W2103305323 type Work @default.
W2103305323 sameAs 2103305323 @default.
W2103305323 citedByCount "193" @default.
W2103305323 countsByYear W21033053232012 @default.
W2103305323 countsByYear W21033053232013 @default.
W2103305323 countsByYear W21033053232014 @default.
W2103305323 countsByYear W21033053232015 @default.
W2103305323 countsByYear W21033053232016 @default.
W2103305323 countsByYear W21033053232017 @default.
W2103305323 countsByYear W21033053232018 @default.
W2103305323 countsByYear W21033053232019 @default.
W2103305323 countsByYear W21033053232020 @default.
W2103305323 countsByYear W21033053232021 @default.
W2103305323 countsByYear W21033053232022 @default.
W2103305323 countsByYear W21033053232023 @default.
W2103305323 crossrefType "journal-article" @default.
W2103305323 hasAuthorship W2103305323A5054431009 @default.
W2103305323 hasAuthorship W2103305323A5065077728 @default.
W2103305323 hasAuthorship W2103305323A5086757159 @default.
W2103305323 hasConcept C117137515 @default.
W2103305323 hasConcept C121332964 @default.
W2103305323 hasConcept C121864883 @default.
W2103305323 hasConcept C158622935 @default.
W2103305323 hasConcept C159249277 @default.
W2103305323 hasConcept C168110828 @default.
W2103305323 hasConcept C174256460 @default.
W2103305323 hasConcept C177918212 @default.
W2103305323 hasConcept C26405456 @default.
W2103305323 hasConcept C2778409180 @default.
W2103305323 hasConcept C2780100471 @default.
W2103305323 hasConcept C2781419962 @default.
W2103305323 hasConcept C33024259 @default.
W2103305323 hasConcept C33332235 @default.
W2103305323 hasConcept C41008148 @default.
W2103305323 hasConcept C44870925 @default.
W2103305323 hasConcept C62520636 @default.
W2103305323 hasConcept C76155785 @default.
W2103305323 hasConcept C98444146 @default.
W2103305323 hasConceptScore W2103305323C117137515 @default.
W2103305323 hasConceptScore W2103305323C121332964 @default.
W2103305323 hasConceptScore W2103305323C121864883 @default.
W2103305323 hasConceptScore W2103305323C158622935 @default.
W2103305323 hasConceptScore W2103305323C159249277 @default.