中文

Cosmology with HI Intensity Mapping

宇宙学与河外天体物理 2026-07-03 v1

摘要

The redshifted spectral emission from neutral hydrogen (HI) at rest wavelength 21 cm can be used as a tracer of large-scale structure and its evolution. Within the HI intensity mapping method, sufficient signal-to-noise is achieved by integrating the line emission within large voxels over a wide sky area and line of sight depth which allows access to the largest scales of the matter distribution. The resulting tomographic maps usually feature low angular and high redshift resolution. The SKAO will be able to conduct HI intensity mapping experiments observing up to 20,000 square degrees over a wide range of redshifts. For SKA-Mid, we will employ the array in a fast-scanning single-dish mode using Band 1 and 2 to access 0<z<3, mapping an enormous volume with fast survey speed, allowing for the possibility of a commensal survey producing high angular resolution maps via the on-the-fly imaging of the visibilities. For SKA-Low, we will focus on deep observations to detect the HI signal in a frequency band matching 3<z<6. In this chapter, we will give an overview of HI intensity mapping with the SKAO, including an outline of planned surveys, a discussion of observational challenges, and methodology for power spectrum methodology and forecasts. We present predictions on the constraining power on LambdaCDM cosmology from HI intensity mapping data via power spectrum, and other observables such as bi-spectrum and HI stacking. We also demonstrate the synergy power of HI intensity mapping with other cosmological surveys.

引用

@article{arxiv.2607.03259,
  title  = {Cosmology with HI Intensity Mapping},
  author = {Laura Wolz and Gabriele Autieri and José Luis Bernal and Maria Berti and Philip Bull and Stefano Camera and Isabella P. Carucci and Zhaoting Chen and Steven Cunnington and José Fonseca and Keith Grainge and Jiakang Han and Wenkai Hu and Dionysios Karagiannis and Mario G. Santos and Marta Spinelli and Liantsoa F. Randrianjanahary and Cora Uhlemann and Matteo Viel and Bernhard Vos-Ginés and Jingying Wang},
  journal= {arXiv preprint arXiv:2607.03259},
  year   = {2026}
}

备注

Published in Advancing Astrophysics with the SKA II (AASKAII), 2026 (arXiv:2606.20366). Report-no:AASKAII/Wolz01. Advancing Astrophysics with the SKA II (AASKAII) outlines the transformative scientific advances that will be enabled by the SKA telescopes