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Cosmological Parameters and Neutrino Masses from the Final Planck and Full-Shape BOSS Data
We present a joint analysis of the Planck cosmic microwave background (CMB) and Baryon Oscillation Spectroscopic Survey (BOSS) final data releases. A key novelty of our study is the use of a new full-shape (FS) likelihood for the redshift-space galaxy power spectrum of the BOSS data, based on an imp...
| Autores principales: | , , |
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| Lenguaje: | eng |
| Publicado: |
2019
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| Acceso en línea: | https://dx.doi.org/10.1103/PhysRevD.101.083504 http://cds.cern.ch/record/2705421 |
| _version_ | 1780964810817536000 |
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| author | Ivanov, Mikhail M. Simonović, Marko Zaldarriaga, Matias |
| author_facet | Ivanov, Mikhail M. Simonović, Marko Zaldarriaga, Matias |
| author_sort | Ivanov, Mikhail M. |
| collection | CERN |
| description | We present a joint analysis of the Planck cosmic microwave background (CMB) and Baryon Oscillation Spectroscopic Survey (BOSS) final data releases. A key novelty of our study is the use of a new full-shape (FS) likelihood for the redshift-space galaxy power spectrum of the BOSS data, based on an improved perturbation theory template. We show that the addition of the redshift-space galaxy clustering measurements breaks degeneracies present in the CMB data alone and tightens constraints on cosmological parameters. Assuming the minimal ΛCDM cosmology with massive neutrinos, we find the following late-Universe parameters: the Hubble constant H0=67.95-0.52+0.66 km s-1 Mpc-1, the matter density fraction Ωm=0.3079-0.0085+0.0065, the mass fluctuation amplitude σ8=0.8087-0.0072+0.012, and an upper limit on the sum of neutrino masses Mtot<0.16 eV (95% C.L.). This can be contrasted with the Planck-only measurements: H0=67.14-0.72+1.3 km s-1 Mpc-1, Ωm=0.3188-0.016+0.0091, σ8=0.8053-0.0091+0.019, and Mtot<0.26 eV (95% C.L.). Our bound on the sum of neutrino masses relaxes once the hierarchy-dependent priors from the oscillation experiments are imposed. The addition of the new FS likelihood also constrains the effective number of extra relativistic degrees of freedom, Neff=2.88±0.17. Our study shows that the current FS and the pure baryon acoustic oscillation data add a similar amount of information in combination with the Planck likelihood. We argue that this is just a coincidence given the BOSS volume and efficiency of the current reconstruction algorithms. In the era of future surveys FS will play a dominant role in cosmological parameter measurements. |
| id | cern-2705421 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2019 |
| record_format | invenio |
| spelling | cern-27054212023-06-28T07:30:47Zdoi:10.1103/PhysRevD.101.083504http://cds.cern.ch/record/2705421engIvanov, Mikhail M.Simonović, MarkoZaldarriaga, MatiasCosmological Parameters and Neutrino Masses from the Final Planck and Full-Shape BOSS Datahep-phParticle Physics - Phenomenologyastro-ph.COAstrophysics and AstronomyWe present a joint analysis of the Planck cosmic microwave background (CMB) and Baryon Oscillation Spectroscopic Survey (BOSS) final data releases. A key novelty of our study is the use of a new full-shape (FS) likelihood for the redshift-space galaxy power spectrum of the BOSS data, based on an improved perturbation theory template. We show that the addition of the redshift-space galaxy clustering measurements breaks degeneracies present in the CMB data alone and tightens constraints on cosmological parameters. Assuming the minimal ΛCDM cosmology with massive neutrinos, we find the following late-Universe parameters: the Hubble constant H0=67.95-0.52+0.66 km s-1 Mpc-1, the matter density fraction Ωm=0.3079-0.0085+0.0065, the mass fluctuation amplitude σ8=0.8087-0.0072+0.012, and an upper limit on the sum of neutrino masses Mtot<0.16 eV (95% C.L.). This can be contrasted with the Planck-only measurements: H0=67.14-0.72+1.3 km s-1 Mpc-1, Ωm=0.3188-0.016+0.0091, σ8=0.8053-0.0091+0.019, and Mtot<0.26 eV (95% C.L.). Our bound on the sum of neutrino masses relaxes once the hierarchy-dependent priors from the oscillation experiments are imposed. The addition of the new FS likelihood also constrains the effective number of extra relativistic degrees of freedom, Neff=2.88±0.17. Our study shows that the current FS and the pure baryon acoustic oscillation data add a similar amount of information in combination with the Planck likelihood. We argue that this is just a coincidence given the BOSS volume and efficiency of the current reconstruction algorithms. In the era of future surveys FS will play a dominant role in cosmological parameter measurements.We present a joint analysis of the Planck cosmic microwave background (CMB) and Baryon Oscillation Spectroscopic Survey (BOSS) final data releases. A key novelty of our study is the use of a new full-shape (FS) likelihood for the redshift-space galaxy power spectrum of the BOSS data, based on an improved perturbation theory template. We show that the addition of the redshift space galaxy clustering measurements breaks degeneracies present in the CMB data alone and tightens constraints on cosmological parameters. Assuming the minimal $\Lambda$CDM cosmology with massive neutrinos, we find the following late-Universe parameters: the Hubble constant \mbox{$H_0=67.95^{+0.66}_{-0.52}$ km s$^{-1}$Mpc$^{-1}$}, the matter density fraction \mbox{$\Omega_m=0.3079^{+0.0065}_{-0.0085}\,$}, the mass fluctuation amplitude \mbox{$\sigma_8=0.8087_{-0.0072}^{+0.012}\,$}, and an upper limit on the sum of neutrino masses \mbox{$M_{\text{tot}} <0.16\,$ eV} ($95\%$ CL).This can be contrasted with the Planck-only measurements: \mbox{$H_0=67.14_{-0.72}^{+1.3}$} km s$^{-1}$Mpc$^{-1}$, $\Omega_m=0.3188^{+0.0091}_{-0.016}\,$, \mbox{$\sigma_8=0.8053_{-0.0091}^{+0.019}\,$}, and \mbox{$M_{\text{tot}} <0.26\,$ eV} ($95\%$ CL). Our bound on the sum of neutrino masses relaxes once the hierarchy-dependent priors from the oscillation experiments are imposed. The addition of the new FS likelihood also constrains the effective number of extra relativistic degrees of freedom, \mbox{$N_{\text{eff}}=2.88\pm 0.17$}. Our study shows that the current FS and the pure baryon acoustic oscillation data add a similar amount of information in combination with the Planck likelihood. We argue that this is just a coincidence given the BOSS volume and efficiency of the current reconstruction algorithms.In the era of future surveys FS will play a dominant role in cosmological parameter measurements.arXiv:1912.08208INR-TH-2019-023CERN-TH-2019-217oai:cds.cern.ch:27054212019-12-17 |
| spellingShingle | hep-ph Particle Physics - Phenomenology astro-ph.CO Astrophysics and Astronomy Ivanov, Mikhail M. Simonović, Marko Zaldarriaga, Matias Cosmological Parameters and Neutrino Masses from the Final Planck and Full-Shape BOSS Data |
| title | Cosmological Parameters and Neutrino Masses from the Final Planck and Full-Shape BOSS Data |
| title_full | Cosmological Parameters and Neutrino Masses from the Final Planck and Full-Shape BOSS Data |
| title_fullStr | Cosmological Parameters and Neutrino Masses from the Final Planck and Full-Shape BOSS Data |
| title_full_unstemmed | Cosmological Parameters and Neutrino Masses from the Final Planck and Full-Shape BOSS Data |
| title_short | Cosmological Parameters and Neutrino Masses from the Final Planck and Full-Shape BOSS Data |
| title_sort | cosmological parameters and neutrino masses from the final planck and full-shape boss data |
| topic | hep-ph Particle Physics - Phenomenology astro-ph.CO Astrophysics and Astronomy |
| url | https://dx.doi.org/10.1103/PhysRevD.101.083504 http://cds.cern.ch/record/2705421 |
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