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Jiajun, Zhang
순수물리이론 연구단
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The BINGO project: VII. Cosmological forecasts from 21 cm intensity mapping

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The BINGO project: VII. Cosmological forecasts from 21 cm intensity mapping
Andre A. Costa; Ricardo G. Landim; Camila P. Novaes; Linfeng Xiao; Elisa G. M. Ferreira; Filipe B. Abdalla; Bin Wang; Elcio Abdalla; Richard A. Battye; Alessandro Marins; Carlos A. Wuensche; Luciano Barosi; Francisco A. Brito; Amilcar R. Queiroz; Thyrso Villela; Karin S. F. Fornazier; Vincenzo Liccardo; Larissa Santos; Marcelo V. dos Santos; Jiajun Zhang
Publication Date
Astronomy and Astrophysics, v.664
EDP Sciences
© ESO 2022.Context. The 21 cm line of neutral hydrogen (HI) opens a new avenue in our exploration of the structure and evolution of the Universe. It provides complementary data to the current large-scale structure (LSS) observations with different systematics, and thus it will be used to improve our understanding of the Icold dark matter (ICDM) model. This will ultimately constrain our cosmological models, attack unresolved tensions, and test our cosmological paradigm. Among several radio cosmological surveys designed to measure this line, BINGO is a single-dish telescope mainly designed to detect baryon acoustic oscillations (BAOs) at low redshifts (0.127 < z < 0.449). Aims. Our goal is to assess the fiducial BINGO setup and its capabilities of constraining the cosmological parameters, and to analyze the effect of different instrument configurations. Methods. We used the 21 cm angular power spectra to extract cosmological information about the HI signal and the Fisher matrix formalism to study BINGO's projected constraining power. Results. We used the Phase 1 fiducial configuration of the BINGO telescope to perform our cosmological forecasts. In addition, we investigated the impact of several instrumental setups, taking into account some instrumental systematics, and different cosmological models. Combining BINGO with Planck temperature and polarization data, the projected constraint improves from a 13% and 25% precision measurement at the 68% confidence level with Planck only to 1% and 3% for the Hubble constant and the dark energy (DE) equation of state (EoS), respectively, within the wCDM model. Assuming a Chevallier- Polarski- Linder (CPL) parameterization, the EoS parameters have standard deviations given by w0 = 0.30 and wa = 1.2, which are improvements on the order of 30% with respect to Planck alone. We also compared BINGO's fiducial forecast with future SKA measurements and found that, although it will not provide competitive constraints on the DE EoS, significant information about HI distribution can be acquired. We can access information about the HI density and bias, obtaining 8.5% and 6% precision, respectively, assuming they vary with redshift at three independent bins. BINGO can also help constrain alternative models, such as interacting dark energy and modified gravity models, improving the cosmological constraints significantly. Conclusions. The fiducial BINGO configuration will be able to extract significant cosmological information from the HI distribution and provide constraints competitive with current and future cosmological surveys. It will also help in understanding the HI physics and systematic effects.
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Center for Fundamental Theory(순수물리이론 연구단) > 1. Journal Papers (저널논문)
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