分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: We revisit the constraint results of different dynamical dark energy models including the Chevallier-Polarski-Linder (CPL) model with $w(z)=w_{0}+w_{1}\frac{z}{1+z}$ and the other two models with the logarithm parametrization of $w(z)=w_{0}+w_{1}\left(\frac{\ln (2+z)}{1+z}-\ln 2\right)$ and the oscillating parametrization of $w(z)=w_{0}+w_{1}\left(\frac{\sin(1+z)}{1+z}-\sin(1)\right)$. The advantage over the CPL model is that the latter two parametrizations for dark energy can explore the whole evolution history of the universe properly. Using the current latest mainstream observations including the cosmic microwave background and the baryon acoustic oscillation as well as the type Ia supernovae, we perform the $\chi^2$ statistic analysis to global fit these models, finding that the logarithm parametrization and the oscillating parametrization are slightly preferred against the CPL scenario. We constrain the total neutrino mass in these dynamical dark energy models. We find that, compared with those in the CPL model, much looser constraints on $\sum m_{\nu}$ are obtained in the logarithm model and the oscillating model. Consideration of the possible mass ordering of neutrinos reveals that the most stringent constraint on $\sum m_{\nu}$ appears in the degenerate hierarchy case. In addition, we confirm that the normal hierarchy case is slightly favored over the inverted one.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: Sterile neutrinos can affect the evolution of the universe, and thus using the cosmological observations can search for sterile neutrinos. In this work, we use the cosmic microwave background (CMB) anisotropy data from the Planck 2018 release, combined with the latest baryon acoustic oscillation (BAO), type Ia supernova (SN), and Hubble constant ($H_0$) data, to constrain the cosmological models with considering sterile neutrinos. In order to test the influences of the properties of dark energy on the {results} of searching for sterile neutrinos, in addition to the $\Lambda$ cold dark matter ($\Lambda$CDM) model, we also consider the $w$CDM model and the holographic dark energy (HDE) model. We find that the existence of sterile neutrinos {is not preferred} when the $H_0$ local measurement is not included in the data combination. When the $H_0$ measurement is included in the joint constraints, it is found that $\Delta N_{\rm eff}>0$ is {favored} at about 2.7$\sigma$ level for the $\Lambda$CDM model and at about 1-1.7$\sigma$ level for the $w$CDM model. However, $m_{\nu,{\rm{sterile}}}^{\rm{eff}}$ still cannot be well constrained and only upper limits can be given. In addition, we find that the HDE model is definitely ruled out by the current data. We also discuss the issue of the Hubble tension, and we conclude that involving sterile neutrinos in the cosmological models cannot truly resolve the Hubble tension.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: We explore a scenario of interacting dynamical dark energy model with the interaction term $Q$ including the varying equation-of-state parameter $w$. Using the data combination of the cosmic microwave background, the baryon acoustic oscillation, and the type Ia supernovae, to global fit the interacting dynamical dark energy model, we find that adding a factor of the varying $w$ in the function of $Q$ can change correlations between the coupling constant $\beta$ and other parameters, and then has a huge impact on the fitting result of $\beta$. In this model, the fitting value of $H_{0}$ is lower at the $3.54 \sigma$ level than the direct measurement value of $H_{0}$ . Comparing to the case of interacting dynamical dark energy model with $Q$ excluding $w$, the model with $Q$ including the constant $w$ is more favored by the current mainstream observation. To obtain higher fitting values of $H_{0}$ and narrow the discrepancy of $H_{0}$ between different observations, additional parameters including the effective number of relativistic species, the total neutrino mass, and massive sterile neutrinos are considered in the interacting dynamical dark energy cosmology. We find that the $H_{0}$ tension can be further reduced in these models, but is still at the about $3 \sigma$ level.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: We revisit the constraint results of different dynamical dark energy models including the Chevallier-Polarski-Linder (CPL) model with $w(z)=w_{0}+w_{1}\frac{z}{1+z}$ and the other two models with the logarithm parametrization of $w(z)=w_{0}+w_{1}\left(\frac{\ln (2+z)}{1+z}-\ln 2\right)$ and the oscillating parametrization of $w(z)=w_{0}+w_{1}\left(\frac{\sin(1+z)}{1+z}-\sin(1)\right)$. The advantage over the CPL model is that the latter two parametrizations for dark energy can explore the whole evolution history of the universe properly. Using the current latest mainstream observations including the cosmic microwave background and the baryon acoustic oscillation as well as the type Ia supernovae, we perform the $\chi^2$ statistic analysis to global fit these models, finding that the logarithm parametrization and the oscillating parametrization are slightly preferred against the CPL scenario. We constrain the total neutrino mass in these dynamical dark energy models. We find that, compared with those in the CPL model, much looser constraints on $\sum m_{\nu}$ are obtained in the logarithm model and the oscillating model. Consideration of the possible mass ordering of neutrinos reveals that the most stringent constraint on $\sum m_{\nu}$ appears in the degenerate hierarchy case. In addition, we confirm that the normal hierarchy case is slightly favored over the inverted one.
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