Science Results

Distant Universe

Supermassive Black Holes Inside of Dying Galaxies Detected in Early Universe

May 26, 2022
Last updated: July 1, 2023

An international team of astronomers used a database combining observations from the best telescopes in the world, including the Subaru Telescope, to detect the signal from the active supermassive black holes of dying galaxies in the early Universe. The appearance of these active supermassive black holes correlates with changes in the host galaxy, suggesting that a black hole could have far reaching effects on the evolution of its host galaxy.

Supermassive Black Holes Inside of Dying Galaxies Detected in Early Universe Figure1

Figure1: Dying galaxies around 10 billion years ago (red objects in the magnified panels) were selected from multi-wavelength observations. This research investigated them using the data of the Cosmic Evolution Survey (COSMOS), which includes the observational data of the Subaru Telescope, Chandra X-ray Observatory, and Very Large Array. The central image shows the COSMOS region. It is a three-color composite of the i-band image from Subaru Telescope/Hyper Suprime-Cam, and J- and Ks-band images from the VISTA telescope. High resolution image is here (2.5 MB) (Credit: NAOJ)

The Milky Way Galaxy where we live includes stars of various ages, including stars still forming. But in some other galaxies, known as elliptical galaxies, all of the stars are old and about the same age. This indicates that early in their histories elliptical galaxies had a period of prolific star formation that suddenly ended. Why this star formation ceased in some galaxies but not others is not well understood. One possibility is that a supermassive black hole disrupts the gas in some galaxies, creating an environment unsuitable for star formation.

To test this theory, astronomers look at distant galaxies. Due to the finite speed of light, it takes time for light to travel across the void of space. The light we see from an object 10 billion light-years away had to travel for 10 billion years to reach Earth. Thus the light we see today shows us what the galaxy looked like when the light left that galaxy 10 billion years ago. So looking at distant galaxies is like looking back in time. But the intervening distance also means that distant galaxies look fainter, making study difficult.

Supermassive Black Holes Inside of Dying Galaxies Detected in Early Universe Figure2

Figure 2. An elliptical galaxy (NGC850), a galaxy which stopped its star formation activity long ago. It is thought that the galaxies in Figure 1 will look like this after 10 billion years. This image was taken with HSC on the Subaru Telescope. (Credit: NAOJ/HSC-SSP)

To overcome these difficulties an international team led by Kei Ito at SOKENDAI in Japan used the Cosmic Evolution Survey (COSMOS) to sample galaxies 9.5-12.5 billion light-years away. COSMOS combines data taken by world leading telescopes, including the Atacama Large Millimeter/submillimeter Array (ALMA) and the Subaru Telescope. COSMOS includes radio wave, infrared light, visible light, and x-ray data.

The team first used optical and infrared data to identify two groups of galaxies: those with ongoing star formation and those where star formation has stopped. The x-ray and radio wave data signal-to-noise ratio was too weak to identify individual galaxies. So the team combined the data for different galaxies to produce higher signal to noise ratio images of "average" galaxies. In the averaged images, the team confirmed both x-ray and radio emissions for the galaxies without star formation. This is the first time such emissions have been detected for distant galaxies more than 10 billion light-years away. Furthermore, the results show that the x-ray and radio emissions are too strong to be explained by the stars in the galaxy alone, indicating the presence of an active supermassive black hole. This black hole activity signal is weaker for galaxies where star formation is ongoing. These results show that an abrupt end in star formation in the early Universe correlates with increased supermassive black hole activity.

Supermassive Black Holes Inside of Dying Galaxies Detected in Early Universe Figure3

Figure3: Schematic picture of the research method. After grouping 5211 dying galaxies by distance and the total mass of stars inside them, the team combines their images and derives the average emissions in X-ray and radio. (Credit: NAOJ)

Dr. Ito says, "We successfully detected the black hole activity inside dying galaxies even in the distant Universe by combining the intensive observations of large telescopes worldwide, including the Subaru Telescope. This observational result is important to understand why they are stopping their star formation." (Note 1)

This result suggests the possibility that the supermassive black hole prevents galaxies from growing. However, we do not know its mechanism yet. To understand the process, the team will continue the investigation.


These results appeared as Ito et al. "COSMOS2020: Ubiquitous AGN Activity of Massive Quiescent Galaxies at 0 < z < 5 Revealed by X-Ray and Radio Stacking" in the Astrophysical Journal on April 12, 2022. This research is supported by the JSPS KAKENHI Grant Number 20J12461.


(Note 1) Dr. Ito's doctoral thesis (Star formation activity of galaxies and its relationship to environment in distant Universe), including this research, has been recognized by the SOKENDAI award of SOKENDAI, the graduated university for advanced studies. For more detail, please refer to the Subaru Telescope's Topics article on May 26, 2022.


About the Subaru Telescope
The Subaru Telescope is a large optical-infrared telescope operated by the National Astronomical Observatory of Japan, National Institutes of Natural Sciences with the support of the MEXT Project to Promote Large Scientific Frontiers. We are honored and grateful for the opportunity of observing the Universe from Maunakea, which has cultural, historical, and natural significance in Hawai`i.

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