Probing the statistical isotropy of the universe with <i>Planck</i> data of the cosmic microwave background

Kester, C. E.; Bernui, A.; Hipólito-Ricaldi, W. S.

doi:10.1051/0004-6361/202348160

Cited by 3 publications

(1 citation statement)

References 57 publications

(63 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Our analyses differ from other studies in various aspects. First, our methodology follows previous studies looking for preferred directions on the sky using several cosmic tracers (Bernui et al 2008;Marques et al 2018;Kester et al 2023); second, to avoid systematics from different observables, we use only SNe Ia data from Pantheon+; this choice is a challenge due to the possibility of having few SNe in some directions of the sky; third, we measure H 0 and its uncertainty in a set of N directions, which covers the celestial sphere, performing a best-fit procedure using the Pantheon+ catalog and its covariance matrix, without cosmological model assumptions; fourth, we perform consistency and robustness tests to support our analyses and results.…”

Section: Introductionmentioning

confidence: 99%

Bulk Flow Motion Detection in the Local Universe with Pantheon+ Type Ia Supernovae

Lopes,

Bernui,

Franco

et al. 2024

ApJ

Self Cite

View full text Add to dashboard Cite

The bulk flow in the Local Universe is a collective phenomenon due to the peculiar motions of matter structures, which, instead of moving in random directions, appears to follow an approximate dipole velocity flow. We apply a directional analysis to investigate, through the Hubble-Lemaître diagram, the angular dependence of the Hubble constant H 0 of a sample of Type Ia supernovae from the Pantheon+ catalog in the Local Universe (0.015 ≤ z ≤ 0.06). We perform a directional analysis that reveals a statistically significant dipole variation of H 0, at more than 99.9% confidence level, showing that matter structures follow a dipole bulk flow motion toward (l, b) = (326.°1 ± 11.°2, 27.°8 ± 11.°2), close to the Shapley supercluster (l Shapley, b Shapley) = (311.°5, 32.°3), with velocity 132.14 ± 109.3 km s−1 at the effective distance 102.83 ± 10.2 Mpc. Interestingly, the antipodal direction of this dipole points close to the Dipole Repeller structure. Our analyses confirm that the gravitational dipole system Shapley-Dipole Repeller explains well the observed bulk flow velocity field in the Local Universe. Furthermore, we performed robustness tests that support our results. Additionally, our approach provides a measurement of the Hubble constant H 0 = 70.39 ± 1.4 km s−1 Mpc−1, at the effective distance 102.8 Mpc, z ≃ 0.025.

show abstract

Section: Introductionmentioning

confidence: 99%

Bulk Flow Motion Detection in the Local Universe with Pantheon+ Type Ia Supernovae

Lopes,

Bernui,

Franco

et al. 2024

ApJ

Self Cite

View full text Add to dashboard Cite

show abstract

Light-Light scattering in Very Special Relativity Quantum Electrodynamics and Cosmic Anisotropies

Alfaro

2024

Physics Letters B

View full text Add to dashboard Cite

The mystery of Local Cosmic Void

Franco,

Avila,

Bernui

2024

Cad. Astro.

View full text Add to dashboard Cite

O Modelo ΛCDM-plano (Λ é a constante cosmológica e CDM, cold dark matter) é o que melhor se ajusta aos dados observacionais atualmente. Ele se fundamenta no Princípio Cosmológico, que assume a homogeneidade e a isotropia estatísticas do universo em larga escala. Estudando as propriedades desta última no Universo Local (UL) por meio do catálogo ALFALFA (Arecibo Legacy Fast ALFA Survey) – um levantamento que cobre ∼ 7000 deg2 do céu e conta com 31502 fontes extragalácticas de HI, distribuídas no intervalo 0 < z < 0.06 e divididas entre os hemisférios Norte e Sul Galácticos – encontramos resultados que indicam a existência de uma região contendo poucas galáxias, e que foi descrita pela primeira vez por Tully & Fischer (1987), ficando conhecida como Local Cosmic Void. Nossas análises são independentes de modelo e usam a função de correlação angular de dois pontos (2PACF) como aferidor estatístico, além de simulações do tipo lognormal (que consideram os parâmetros cosmológicos) para a estimativa das incertezas dos resultados. Para entender as propriedades e a morfologia da estrutura encontrada, fizemos testes com voids simulados, além de investigações comparativas com as descrições de voids do UL disponíveis na literatura. Nossos resultados indicam que o LCV possui contraste de densidade numérica δ ≃ −0.3, correspondente a uma subdensidade de ∼ 150 Mpc de comprimento e ∼ 60 Mpc de largura, características que concordam com a literatura.

show abstract

Probing the statistical isotropy of the universe with Planck data of the cosmic microwave background

Cited by 3 publications

References 57 publications

Bulk Flow Motion Detection in the Local Universe with Pantheon+ Type Ia Supernovae

Bulk Flow Motion Detection in the Local Universe with Pantheon+ Type Ia Supernovae

Light-Light scattering in Very Special Relativity Quantum Electrodynamics and Cosmic Anisotropies

The mystery of Local Cosmic Void

Contact Info

Product

Resources

About