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Chandra Deep Field South : Early Black Holes May Have Grown in Fits and Spurts

  • The very earliest supermassive black holes in the Universe may have grown in intense and sporadic bursts.

  • Scientists determined this by comparing theoretical models to Chandra surveys including the Chandra Deep Field-South and other data.

  • They found that only a small fraction of supermassive black holes were actively growing at a distance of 13.2 billion light years.

  • In order to find more about these very distant black holes, researchers hope to conduct wider X-ray surveys of the sky.

New research using NASA's Chandra X-ray Observatory and the Sloan Digital Sky Survey (SDSS) suggests supermassive black holes in the early Universe underwent sporadic yet intense periods of growth in the first billion years after the Big Bang as described in our latest press release. Scientists determined this by comparing theoretical models to data from the Chandra Deep Field-South (CDF-S), the deepest X-ray image ever obtained, and other Chandra surveys. This central region of the CDF-S, where red, green, and blue represent low, medium, and high-energy X-rays detected by Chandra, is seen in the main panel.

When material is falling toward a black hole, it becomes heated, and produces large amounts of electromagnetic radiation, including copious X-ray emission. The artist's illustration in the inset depicts gas falling onto an actively growing black hole via a disk. X-rays from this disk can penetrate the cocoon of material surrounding the black hole. Rapidly growing black holes in the very early Universe should be detectable with Chandra. However, these growing supermassive black holes have proved to be elusive, with only a few, yet to be confirmed candidates found in long Chandra observations such as the CDF-S.

To address this conundrum, a team of researchers examined different theoretical models and tested them against optical data from the SDSS and X-ray data from Chandra. Their findings indicate that black hole feeding during this era may turn on abruptly and last for short periods of time, which means this growth may be difficult to spot.

The timing of such growth may be key. The authors' model suggests that 13 billion years ago, about one third of supermassive black holes may have been accreting enough matter to be detectable. Just 200 million years earlier — a veritable blip in cosmic time — the number of potentially detectable black holes is only about 3%. In order to test this idea further, the researchers suggest that surveys that look at larger swaths of the sky in X-rays are necessary.

These results recently appeared in a paper in the April 2017 issue of the Monthly Notices of the Royal Astronomical Society and is available online. The all-female research team from Italy included Edwige Pezzulli (University of Rome), Rosa Valiante (INAF), Maria Orofino (Scuola Normale Superiore), Simona Gallerani (Scuola Normale Superiore), Tullia Sbarrato (Bicocca University), and Raffaella Schneider (Sapienza University).

NASA's Marshall Space Flight Center in Huntsville, Alabama, manages the Chandra program for NASA's Science Mission Directorate in Washington. The Smithsonian Astrophysical Observatory in Cambridge, Massachusetts, controls Chandra's science and flight operations.

 

 

Fast Facts for Chandra Deep Field South :
Credit  X-ray: NASA/CXC/Univ. of Rome/E.Pezzulli et al. Illustration: NASA/CXC/M.Weiss
Release Date  May 31, 2017
Scale  Image is 16 arcmin across.
Category  Cosmology/Deep Fields/X-ray Background, Black Holes
Coordinates (J2000)  RA 03h 32m 28s | Dec -27° 48' 30.00"
Constellation  Fornax
Observation Date  102 pointings between 1999 and 2016
Observation Time  1944 hours 27 min
Obs. ID  1431, 441, 582, 1672, 2239, 2312, 2313, 2405, 2406, 2409, 8591-8597, 9575, 9578, 9593, 9596, 9718, 12043-12055, 12123, 12128, 12129, 12135, 12137, 12138, 12213, 12218-12220, 12222, 12223, 12227, 12230-12234, 16175-16191, 16450-16463, 16620, 16641, 16644, 17416, 17417, 17535, 17542, 17546, 17552, 17556, 17573, 17633, 17634, 17677, 18709, 18719, 18730
Instrument  ACIS
References Luo, B. et al, 2016, ApJS (in press); arXiv:1611.03501; Vito, F. et al, 2016, MNRAS, 463, 348; arXiv:1608.02614
Color Code  X-ray (Red, Green, Blue)
X-ray
Distance Estimate  About 11.9 to 12.9 billion light years
distance arrow
Visitor Comments (3)

Interesting and very informative.

Posted by Tapas Das on Friday, 11.24.17 @ 11:31am


While I have no four-year degree - 64 yrs old, HS grad 1972 - in my later years I have found an immense curiosity about space and its history. I absolutely love that so much research is being done around the world and that we are learning more about our long distant past, and future all the time. Thanks for posting this article.

Posted by John Gibson on Monday, 08.28.17 @ 04:29am


Awesome.

Posted by Zachary Burell on Tuesday, 06.27.17 @ 19:30pm


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