Constrained realizations of 2MRS density and peculiar velocity fields: growth rate and local flow

Lilow, Robert; Nusser, Adi

doi:10.48550/arxiv.2102.07291

Cited by 5 publications

(7 citation statements)

References 101 publications

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“…The latter approach has a long history, originally having been used to predict the peculiar velocities of FP and TF samples (Hudson 1993;Strauss & Willick 1995;Davis et al 1996) but more recently applied to peculiar velocity data that include SNe type Ia. (Riess et al 1997;Radburn-Smith et al 2004;Pike & Hudson 2005;Neill et al 2007;Turnbull et al 2012;Carrick et al 2015;Boruah et al 2020b;Lilow & Nusser 2021;Stahl et al 2021).…”

Section: A New Derivation Of Peculiar Velocity Correctionsmentioning

confidence: 99%

“…The term 𝜎 2 NL = 150 km/s represents uncertainty in the linear velocity prediction due to unaccounted-for non-linearities, which we fix at the value recommended in Carrick et al (2015). How-ever, the uncertainty in our reconstructed peculiar velocity increases with redshift, an effect that was ignored in previous work: firstly, the predicted peculiar velocities for tracers near the outer edge of the 2M++ catalogue (200 Mpc/ℎ) have larger uncertainty because of unaccounted-for structures outside of the survey limits, as well as because of lack of coverage beyond 125 Mpc/ℎ for part of the sky (Hollinger & Hudson 2021); secondly, the noise increases at larger distances due to the smaller number of galaxies with larger weights that are used to represent the density field (Lilow & Nusser 2021). We capture these effects via the redshift-dependent term:…”

Section: Peculiar Velocity Correction Uncertaintiesmentioning

confidence: 99%

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New Constraints on Anisotropic Expansion from Supernovae Type Ia

Rahman,

Trotta,

Boruah

et al. 2021

Preprint

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We re-examine the contentious question of constraints on anisotropic expansion from Type Ia supernovae (SNIa) in the light of a novel determination of peculiar velocities, which are crucial to test isotropy with SNe out to distances ∼ < 200/ℎ Mpc. We re-analyze the Joint Light-Curve Analysis (JLA) Supernovae (SNe) data, improving on previous treatments of peculiar velocity corrections and their uncertainties (both statistical and systematic) by adopting state-of-the-art flow models constrained independently via the 2M++ galaxy redshift compilation. We also introduce a novel procedure to account for colour-based selection effects, and adjust the redshift of low-𝑧 SNe self-consistently in the light of our improved peculiar velocity model.We adopt the Bayesian hierarchical model BAHAMAS to constrain a dipole in the distance modulus in the context of the ΛCDM model and the deceleration parameter in a phenomenological Cosmographic expansion. We do not find any evidence for anisotropic expansion, and place a tight upper bound on the amplitude of a dipole, |𝐷 𝜇 |< 5.93 × 10 −4 (95% credible interval) in a ΛCDM setting, and |𝐷 𝑞 0 |< 6.29 × 10 −2 in the Cosmographic expansion approach. Using Bayesian model comparison, we obtain posterior odds in excess of 900:1 (640:1) against a constant-in-redshift dipole for ΛCDM (the Cosmographic expansion). In the isotropic case, an accelerating universe is favoured with odds of ∼ 1100 : 1 with respect to a decelerating one.

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Section: A New Derivation Of Peculiar Velocity Correctionsmentioning

confidence: 99%

Section: Peculiar Velocity Correction Uncertaintiesmentioning

confidence: 99%

New Constraints on Anisotropic Expansion from Supernovae Type Ia

Rahman,

Trotta,

Boruah

et al. 2021

Preprint

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“…with observed peculiar velocities from the Cosmicflows-3 catalogue (CF3;Tully et al 2016),Lilow & Nusser (2021) derive 𝑓 𝜎 lin 8 = 0.363 ± 0.070. We convert this to 𝑆 8 identically to our own result.…”

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confidence: 61%

Peculiar-velocity cosmology with Types Ia and II supernovae

Stahl,

de Jaeger,

Boruah

et al. 2021

Preprint

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We present the Democratic Samples of Supernovae (DSS), a compilation of 775 low-redshift Type Ia and II supernovae (SNe Ia & II), of which 137 SN Ia distances are derived via the newly developed snapshot distance method. Using the objects in the DSS as tracers of the peculiar-velocity field, we compare against the corresponding reconstruction from the 2M++ galaxy redshift survey. Our analysis -which takes special care to properly weight each DSS subcatalogue and cross-calibrate the relative distance scales between them -results in a measurement of the cosmological parameter combination 𝑓 𝜎 8 = 0.390 +0.022 −0.022 as well as an external bulk flow velocity of 195 +22 −23 km s −1 in the direction (ℓ, 𝑏) = (292 +7 −7 , −6 +5 −4 ) deg, which originates from beyond the 2M++ reconstruction. Similarly, we find a bulk flow of 245 +32 −31 km s −1 toward (ℓ, 𝑏) = (294 +7 −7 , 3 +6 −5 ) deg on a scale of ∼ 30 ℎ −1 Mpc if we ignore the reconstructed peculiar-velocity field altogether. Our constraint on 𝑓 𝜎 8 -the tightest derived from SNe to date (considering only statistical error bars), and the only one to utilise SNe II -is broadly consistent with other results from the literature. We intend for our data accumulation and treatment techniques to become the prototype for future studies that will exploit the unprecedented data volume from upcoming wide-field surveys.

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“…Most peculiar velocity studies invoke linear perturbation theory. Cosmicflows-3 distance and velocity information (Tully et al 2016) and 2MRS, the 2MASS red- shift survey to K s = 11.75 (Huchra et al 2012), have been used in linear regime studies (Graziani et al 2019;Lilow & Nusser 2021;Hoffman et al 2021) and there have been studies with variant samples (Carrick et al 2015;Jasche & Lavaux 2019;Kitaura et al 2021).…”

Section: Discussionmentioning

confidence: 99%

“…Likewise, our description of external tidal influences with 44 major clusters at 8, 000 − 16, 000 km s −1 is crude. Were we to repeat this exercise, we might use the description of matter in this velocity regime given by Lilow & Nusser (2021).…”

Section: Discussionmentioning

confidence: 99%

Galaxy flows within 8,000 km/s from Numerical Action methods

Shaya,

Tully,

Pomarède

et al. 2022

Preprint

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The trajectories since z = 4 of systems of galaxies ('halos') with cz < 8, 000 km s −1 are found through Numerical Action reconstructions. A set of 9,719 halos from a 2MASS group catalog and Cosmicflows-3 catalogs are given attention. Present distances are adjusted to minimize departures from observed redshifts. For those with the most precisely determined distances, compromises are made between distance and redshift agreement. H 0 is varied from 69 to 77 km s −1 Mpc −1 with Ω m set by the baryon acoustic oscillation constraint from the Planck Satellite. A best fitting amplitude of the mass-to-light relation is found. A uniform density associated with the interhalo medium accounts for the matter not in halos. The solution paths provide the histories of the formation of the nearby large structures and depict how the voids emptied. Assuming no local over/underdensity, the best model has H 0 = 73 km s −1 Mpc −1 with nearly the same density arising from interhalo matter (IHM) as from halos. We examine local over/underdensities by varying the IHM density and find a valley of best fit models along H 0 = 73.0(1 + 0.165δ) km s −1 Mpc −1 . Friedmann models with distinct densities internal and external to the study region give a similar relationship. The fraction of matter in the IHM seen in n-body simulations roughly matches that in our H 0 = 72 scenario. Videos have been created to visualize the complexities of formation of large-scale structures. Standard n-body calculations starting from the first time-steps as tests of the NAM solutions, and continue until cosmic scale factor a = 2 provide glimpses into the future.

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Constrained realizations of 2MRS density and peculiar velocity fields: growth rate and local flow

Cited by 5 publications

References 101 publications

New Constraints on Anisotropic Expansion from Supernovae Type Ia

New Constraints on Anisotropic Expansion from Supernovae Type Ia

Peculiar-velocity cosmology with Types Ia and II supernovae

Galaxy flows within 8,000 km/s from Numerical Action methods

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