Discovery of a luminous galaxy reionizing the local intergalactic medium 13 billion years ago
Astronomers have discovered a luminous galaxy caught in the act of reionizing its surrounding gas only 800 million years after the Big Bang. The research, led by Romain Meyer, PhD student at UCL in London, UK, has been presented today at the virtual annual meeting of the European Astronomical Society (EAS).
The galaxy A370p_z1 in the Hubble imaging and a zoom-in in each filter. The non-detection in the first three filers, followed by detections in all the redder filter is a typical signature of distant galaxies.
Studying the first galaxies that formed 13 billion years ago is essential to understanding our cosmic origins. One of the current hot topics in extragalactic astronomy is ‘cosmic reionization’, the process in which the intergalactic gas was ionized (atoms stripped of their electrons). Cosmic reionization is similar to an unsolved murder: we have clear evidence for it, but who did it, how and when? We now have strong evidence that hydrogen reionization was completed about 13 billion years ago, in the first billion years of the Universe, with bubbles of ionized gas slowly growing and overlapping. The objects capable of creating such ionized hydrogen bubbles have however remained mysterious until now: the discovery of a luminous galaxy in which 60-100% of ionizing photons escape, is likely responsible for ionizing its local bubble. This suggests the case is closer to being solved.
The two main suspects for cosmic reionization are usually 1) a population of numerous faint galaxies leaking ~10% of their energetic photons, and 2) an ‘oligarchy’ of luminous galaxies with a much larger percentage (>50%) of photons escaping each galaxy. In either case, these first galaxies were very different from those today: galaxies in the local Universe are very inefficient leakers, with only <2-3% of ionizing photons escaping their host. To understand which galaxies governed cosmic reionization, astronomers must measure the so-called escape fractions of galaxies in the reionization era.
The detection of light from excited hydrogen atoms (the so-called Lyman-alpha line) can be used to infer the fraction of escaping photons. On the one hand, such detections are rare because reionization-era galaxies are surrounded by neutral gas which absorbs that signature hydrogen emission. On the other hand, if this hydrogen signal is detected it represents a ‘smoking gun’ for a large ionized bubble, meaning we have caught a galaxy reionizing its surroundings. The size of the bubble and the galaxy’s luminosity determines whether it is solely responsible for creating this ionized bubble or if unseen accomplices are necessary.
The discovery of a luminous galaxy 800 million years after the Big Bang supports the scenario where an ‘oligarchy’ of bright leakers emits most of the ionizing photons. “It is the first time we can point to an object responsible for creating an ionized bubble, without the need for a contribution from unseen galaxies,” comments Meyer. “Additional observations with the upcoming James Webb Space Telescope will enable us to study further what is likely one of the best suspects for the unsolved case of cosmic reionization.”
Source: U.S. National Aeronautics and Space Administration
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