B. Czerny, M. L. Mart'inez-Aldama, G. Wojtkowska, M. Zajavcek, P. Marziani, D. Dultzin, M. Naddaf, S. Panda, R. Prince, R. Przyluski, M. Rałowski, M. Śniegowska
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引用次数: 2
摘要
最近在Ia/造父变星超新星的低红移宇宙中进行的协和宇宙学模型($\Lambda$ CDM)参数测量,以及在宇宙微波背景(CMB)完成的遥远宇宙中进行的测量,表明哈勃常数的值不同(普朗克的67.4 $\pm$ 0.5 km s $^{-1}$ Mpc $^{-1}$与74.03 $\pm$ 1.42 km s $^{-1}$ Mpc $^{-1}$, Riess等人。2019)。哈勃恒定的张力意味着要么系统误差被低估了,要么$\Lambda$ CDM不能很好地代表观测到的宇宙膨胀。由于类星体-活动星系核-可以在附近的宇宙中观测到红移z $\sim$ 7.5,因此它们适用于估计大红移范围内的宇宙学性质。我们的团队基于对宇宙晚期至红移z $\sim $ 4.5的类星体的观测,开发了两种方法,目的是确定宇宙的膨胀率。这些方法还不能提供哈勃常数的独立测量,因为它们没有确定的绝对校准,但它们允许测试$\Lambda$ CDM模型,到目前为止还没有发现偏离该模型的情况。
Recent measurements of the parameters of the Concordance Cosmology Model ($\Lambda$CDM) done in the low-redshift Universe with Supernovae Ia/Cepheids, and in the distant Universe done with Cosmic Microwave Background (CMB) imply different values for the Hubble constant (67.4 $\pm$ 0.5 km s$^{-1}$ Mpc$^{-1}$ from Planck vs 74.03 $\pm$ 1.42 km s$^{-1}$ Mpc$^{-1}$, Riess et al. 2019). This Hubble constant tension implies that either the systematic errors are underestimated, or the $\Lambda$CDM does not represent well the observed expansion of the Universe. Since quasars - active galactic nuclei - can be observed in the nearby Universe up to redshift z $\sim$ 7.5, they are suitable to estimate the cosmological properties in a large redshift range. Our group develops two methods based on the observations of quasars in the late Universe up to redshift z$\sim $4.5, with the objective to determine the expansion rate of the Universe. These methods do not yet provide an independent measurement of the Hubble constant since they do not have firm absolute calibration but they allow to test the $\Lambda$CDM model, and so far no departures from this model were found.
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