Astro2020 Science White Paper: First Stars and Black Holes at Cosmic Dawn with Redshifted 21-cm Observations
astro-ph.CO
/ Authors
Jordan Mirocha, Daniel Jacobs, Josh Dillon, Steve Furlanetto, Jonathan Pober, Adrian Liu, James Aguirre, Yacine Ali-Haïmoud, Marcelo Alvarez, Adam Beardsley
and 32 more authors
George Becker, Judd Bowman, Patrick Breysse, Volker Bromm, Jack Burns, Xuelei Chen, Tzu-Ching Chang, Hsin Chiang, Joanne Cohn, David DeBoer, Cora Dvorkin, Anastasia Fialkov, Nick Gnedin, Bryna Hazelton, Masui Kiyoshi, Saul Kohn, Leon Koopmans, Ely Kovetz, Paul La Plante, Adam Lidz, Yin-Zhe Ma, Yi Mao, Andrei Mesinger, Julian Muñoz
/ Abstract
The "cosmic dawn" refers to the period of the Universe's history when stars and black holes first formed and began heating and ionizing hydrogen in the intergalactic medium (IGM). Though exceedingly difficult to detect directly, the first stars and black holes can be constrained indirectly through measurements of the cosmic 21-cm background, which traces the ionization state and temperature of intergalactic hydrogen gas. In this white paper, we focus on the science case for such observations, in particular those targeting redshifts z $\gtrsim$ 10 when the IGM is expected to be mostly neutral. 21-cm observations provide a unique window into this epoch and are thus critical to advancing first star and black hole science in the next decade.