Ia型超新星绝对星等的局部先验在宇宙学推断中的应用

D. Camarena, V. Marra
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引用次数: 120

摘要

一种表现为宇宙常数的暗能量,直到在非常低的红移处突然出现幻像跃迁($z 4$\sigma$),在哈勃常数的局部红移和高红移测定之间存在差异,同时保持了λ CDM模型相对于其他可观测值的现象学上的成功。在这里,我们证明了这样一个曲棍球棒暗能量不能解决$H_0$危机。基本原因是用于推导局部H_0约束的超新星绝对星等$M_B$与拟合超新星、BAO和CMB数据所需的$M_B$不兼容,并且这种分歧不能通过非常低红移的突然幻影跃迁来解决。我们使用这个例子来说明为什么在统计分析中最好采用$M_B$的先验来替代$H_0$的先验。这三个原因是:1)避免对低红移超新星的重复计算;2)避免假设宇宙学的有效性,特别是将减速参数固定为标准模型值q_0=-0.55; 3)在分析中包含了M_B$受局部校准约束的事实,这一信息在分析中可能被忽略,从而使模型选择和参数约束产生偏差。我们提供了$M_B$相对于最近的万神殿和DES-SN3YR超新星目录的先验。我们还提供了$H_0$和$q_0$上的高斯联合先验,通过SH0ES将$H_0$上的先验推广。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the use of the local prior on the absolute magnitude of Type Ia supernovae in cosmological inference
A dark-energy which behaves as the cosmological constant until a sudden phantom transition at very-low redshift ($z 4$\sigma$ disagreement between the local and high-redshift determinations of the Hubble constant, while maintaining the phenomenological success of the $\Lambda$CDM model with respect to the other observables. Here, we show that such a hockey-stick dark energy cannot solve the $H_0$ crisis. The basic reason is that the supernova absolute magnitude $M_B$ that is used to derive the local $H_0$ constraint is not compatible with the $M_B$ that is necessary to fit supernova, BAO and CMB data, and this disagreement is not solved by a sudden phantom transition at very-low redshift. We make use of this example to show why it is preferable to adopt in the statistical analyses the prior on $M_B$ as an alternative to the prior on $H_0$. The three reasons are: i) one avoids potential double counting of low-redshift supernovae, ii) one avoids assuming the validity of cosmography, in particular fixing the deceleration parameter to the standard model value $q_0=-0.55$, iii) one includes in the analysis the fact that $M_B$ is constrained by local calibration, an information which would otherwise be neglected in the analysis, biasing both model selection and parameter constraints. We provide the priors on $M_B$ relative to the recent Pantheon and DES-SN3YR supernova catalogs. We also provide a Gaussian joint prior on $H_0$ and $q_0$ that generalizes the prior on $H_0$ by SH0ES.
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