Little red dot (cosmological object)

A Little Red Dot galaxy (center) in false color.

Little red dots (LRDs) are a class of small, red-tinted cosmological objects discovered by the James Webb Space Telescope (JWST).[1][2][3] Their discovery was announced in March 2024, and they are poorly understood due to limited data collection.[4] They appear to have existed between 0.6 and 1.6 billion years after the Big Bang (13.2 to 12.2 billion years ago), with a majority found around 600 million years post-Big Bang.[1][5] Only 341 LRDs have been identified thus far with JWST.[6] They are extremely difficult to observe, even with JWST, being "at the limits" of that telescope's observational capability.[7]

The current leading theory is that the LRDs are a form of primordial galaxy,[7] and the original reports identified LRDs as a type of early active galactic nucleus (AGN) containing a supermassive black hole. However, while this explains their age and appearance, they don't have the same characteristics as known AGNs. For example, they dont appear to emit X-rays, have a flattened rather than steeply rising infrared spectrum, and display very little variability between themselves.[8] In July 2025 it was proposed that instead, LRDs were supermassive non-metallic primordial stars - also known as Population III stars - of perhaps a million solar masses, seen in the last few thousands of years of their lifetime.[7] Theoretical modelling of such stars appeared to closely match the spectrum features and luminosity of LRD, including the presence of a "strong, broad Hβ emission line alongside other Balmer lines in absorption", and in particular the photosphere of such a star would cause the V-shaped Balmer break seen in LRDs.[7] The authors further hypothesised that such stars were progenitors of supermassive black holes, also explaining the early development of the latter objects.[7] Other theories are that they are quasi-stars,[9] or similar objects consisting of a black hole surrounded by a gaseous envelope.[10]

As Active Galactic Nuclei (AGNs)

LRDs were first selected by photometric methods because they are blue in ultraviolet and red in the optical spectrum.[4] 80% were found to have very broad Balmer emission lines, suggesting that they are active galactic nuclei (AGN) and host supermassive black holes at their center.[11] Active galactic nuclei are defined as small regions in the centers of galaxies that emit copious amounts of energy in the form of bright jets and winds.[12][13] Scientists study the properties of AGNs to better understand supermassive black hole formation and how they contribute to the structure and dynamics of LRDs.[4] One property of LRDs explained by the AGN theory is the red color of the galaxies themselves. Astrophysicists have determined that the distinct color can be accredited to the massive amounts of gas, dusk, and electromagnetic energy that surrounds the AGN and supermassive black hole.[14] This region is also known as the accretion disk.

False-color stamps of 20 Little Red Dot galaxies.

The gas in LRDs spins extremely fast.[1] Scientists argue that the gas is accelerated to these extreme speeds by spinning, supermassive black holes.[1] A team working under the Webb Telescope targeted LRDs in the 'Red Unknowns: Bright Infrared Extragalactic Survey',[15] observing rapid gas orbits of roughly 2 million miles per hour (1,000 km per second)-- A strong indicator of black hole accretion.[5]

On the other hand, LRDs also exhibit properties that are difficult to explain within the AGN scenario. For example, they have a flat infrared spectrum[16] and lack x-ray detection.[17][18] LRDs also show very weak time variability, often seen in AGN observation.[19]

Observed properties

Several models have been proposed to explain the observed properties of LRDs.[20][21][22] The shape of the ultraviolet spectrum can be explained by the scattered AGN light[20][21] or by the gray dust extinction law.[22]

Research has shown that LRDs do not commonly exist at lower redshifts. One possible reason for this observation is what Webb Space Telescope calls "inside-out growth": When a galaxy evolves and expands outward from its nucleus at lower redshifts, a decreasing amount of gas is deposited near the accreting black hole. Thus, the black hole sheds its outer gas layers, becomes bluer, and is no longer categorized as an LRD.[5]

Most are extremely compact, averaging around 2% of the radius of the Milky Way.[3] A typical LRD has a radius no greater than 500 light-years, though many have radii smaller than 150 light-years.[23]

Likely local analogues of LRDs were discovered in a sample of Green Pea Galaxies (GP).[24] These are broad-line AGN hosting Green Peas (BLGP) with V-shaped rest-frame UV-to-optical spectral energy distribution (SED). Seven such V-shaped BLGPs were identified from a sample size of 2190. These V-shaped BLGPs host over-massive black holes.[24]

References

  1. ^ a b c d Boyle, Rebecca (2024-10-09). "The 'Beautiful Confusion' of the First Billion Years Comes Into View". Quanta Magazine. Retrieved 2024-10-18.
  2. ^ "Little Red Dots: Stars or Black Holes?". NASA Space News. 2024-09-09. Retrieved 2024-10-18.
  3. ^ a b Pacucci, Fabio (8 September 2024). "Hidden, compact galaxies in the distant universe—searching for the secrets behind the little red dots". The Conversation. Phys.org. Retrieved 15 March 2025.
  4. ^ a b c Matthee, Jorryt; Naidu, Rohan P.; Brammer, Gabriel; Chisholm, John; Eilers, Anna-Christina; Goulding, Andy; Greene, Jenny; Kashino, Daichi; Labbe, Ivo; Lilly, Simon J.; Mackenzie, Ruari; Oesch, Pascal A.; Weibel, Andrea; Wuyts, Stijn; Xiao, Mengyuan (7 March 2024). "Little Red Dots: An Abundant Population of Faint Active Galactic Nuclei at z ∼ 5 Revealed by the EIGER and FRESCO JWST Surveys". The Astrophysical Journal. 963 (2): 129. arXiv:2306.05448. Bibcode:2024ApJ...963..129M. doi:10.3847/1538-4357/ad2345. ISSN 0004-637X.
  5. ^ a b c "Newfound Galaxy Class May Indicate Early Black Hole Growth, Webb Finds". Webb. Retrieved 2025-02-03.
  6. ^ Siegel, Ethan (Jan 22, 2025). "JWST fully solves the mystery of "Little Red Dots"". Medium. Retrieved Jan 29, 2025.
  7. ^ a b c d e Nandal, Devesh; Loeb, Abraham (2025). "Supermassive Stars Match the Spectral Signatures of JWST's Little Red Dots". arXiv:2507.12618 [astro-ph.GA].
  8. ^ "Are the JWST's Little Red Dots Actually Supermassive Black Hole Seeds?".
  9. ^ Begelman, Mitchell C.; Dexter, Jason (2025). "Little Red Dots as Late-stage Quasi-stars". arXiv:2507.09085 [astro-ph.GA].
  10. ^ Kido, Daisaburo; Ioka, Kunihito; Hotokezaka, Kenta; Inayoshi, Kohei; Irwin, Christopher M. (2025). "Black Hole Envelopes in Little Red Dots". arXiv:2505.06965 [astro-ph.HE].
  11. ^ Greene, Jenny E.; Labbe, Ivo; Goulding, Andy D.; Furtak, Lukas J.; Chemerynska, Iryna; Kokorev, Vasily; Dayal, Pratika; Volonteri, Marta; Williams, Christina C.; Wang 王, Bingjie 冰洁; Setton, David J.; Burgasser, Adam J.; Bezanson, Rachel; Atek, Hakim; Brammer, Gabriel (2024-03-01). "UNCOVER Spectroscopy Confirms the Surprising Ubiquity of Active Galactic Nuclei in Red Sources at z > 5". The Astrophysical Journal. 964 (1): 39. arXiv:2309.05714. Bibcode:2024ApJ...964...39G. doi:10.3847/1538-4357/ad1e5f. ISSN 0004-637X.
  12. ^ "What Are Active Galactic Nuclei?". Webb. Retrieved 2025-01-30.
  13. ^ information@eso.org. "Active Galactic Nucleus". esahubble.org. Retrieved 2025-01-30.
  14. ^ Robert Lea (2025-01-27). "Supermassive black holes in 'little red dot' galaxies are 1,000 times larger than they should be, and astronomers don't know why". Space.com. Retrieved 2025-01-30.
  15. ^ Anna de Graaff; Gabriel Brammer; Andrea Weibel; Zach Lewis; Michael V. Maseda; Pascal A. Oesch; Rachel Bezanson; Leindert A. Boogaard; Nikko J. Cleri; Olivia R. Cooper; Rashmi Gottumukkala; Jenny E. Greene; Michaela Hirschmann; Raphael E. Hviding; Harley Katz; Ivo Labbé; Joel Leja; Jorryt Matthee; Ian McConachie; Tim B. Miller; Rohan P. Naidu; Sedona H. Price; Hans-Walter Rix; David J. Setton; Katherine A. Suess; Bingjie Wang; Katherine E. Whitaker; Christina C. Williams (May 2025). "RUBIES: a complete census of the bright and red distant Universe with JWST/NIRSpec". Astronomy & Astrophysics. 697: 21. arXiv:2409.05948v2. Bibcode:2025A&A...697A.189D. doi:10.1051/0004-6361/202452186.
  16. ^ Williams, Christina C.; Alberts, Stacey; Ji, Zhiyuan; Hainline, Kevin N.; Lyu, Jianwei; Rieke, George; Endsley, Ryan; Suess, Katherine A.; Sun, Fengwu; Johnson, Benjamin D.; Florian, Michael; Shivaei, Irene; Rujopakarn, Wiphu; Baker, William M.; Bhatawdekar, Rachana (2024-06-01). "The Galaxies Missed by Hubble and ALMA: The Contribution of Extremely Red Galaxies to the Cosmic Census at 3 < z < 8". The Astrophysical Journal. 968 (1): 34. arXiv:2311.07483. Bibcode:2024ApJ...968...34W. doi:10.3847/1538-4357/ad3f17. ISSN 0004-637X.
  17. ^ Ananna তনিমা তাসনিম, Tonima Tasnim অনন্যা; Bogdán, Ákos; Kovács, Orsolya E.; Natarajan, Priyamvada; Hickox, Ryan C. (2024-07-01). "X-Ray View of Little Red Dots: Do They Host Supermassive Black Holes?". The Astrophysical Journal Letters. 969 (1): L18. arXiv:2404.19010. Bibcode:2024ApJ...969L..18A. doi:10.3847/2041-8213/ad5669. ISSN 2041-8205.
  18. ^ Yue, Minghao; Eilers, Anna-Christina; Ananna, Tonima Tasnim; Panagiotou, Christos; Kara, Erin; Miyaji, Takamitsu (2024-10-01). "Stacking X-Ray Observations of "Little Red Dots": Implications for Their Active Galactic Nucleus Properties". The Astrophysical Journal Letters. 974 (2): L26. arXiv:2404.13290. Bibcode:2024ApJ...974L..26Y. doi:10.3847/2041-8213/ad7eba. ISSN 2041-8205.
  19. ^ Kokubo, Mitsuru; Harikane, Yuichi (2024). "Challenging the AGN scenario for JWST/NIRSpec broad Hα emitters/Little Red Dots in light of non-detection of NIRCam photometric variability and X-ray". arXiv:2407.04777 [astro-ph.GA].
  20. ^ a b Kocevski, Dale D.; Onoue, Masafusa; Inayoshi, Kohei; Trump, Jonathan R.; Arrabal Haro, Pablo; Grazian, Andrea; Dickinson, Mark; Finkelstein, Steven L.; Kartaltepe, Jeyhan S.; Hirschmann, Michaela; Aird, James; Holwerda, Benne W.; Fujimoto, Seiji; Juneau, Stéphanie; Amorín, Ricardo O. (2023-09-01). "Hidden Little Monsters: Spectroscopic Identification of Low-mass, Broad-line AGNs at z > 5 with CEERS". The Astrophysical Journal Letters. 954 (1): L4. arXiv:2302.00012. Bibcode:2023ApJ...954L...4K. doi:10.3847/2041-8213/ace5a0. ISSN 2041-8205.
  21. ^ a b Labbe, Ivo; Greene, Jenny E.; Bezanson, Rachel; Fujimoto, Seiji; Furtak, Lukas J.; Goulding, Andy D.; Matthee, Jorryt; Naidu, Rohan P.; Oesch, Pascal A.; Atek, Hakim; Brammer, Gabriel; Chemerynska, Iryna; Coe, Dan; Cutler, Sam E.; Dayal, Pratika (2023). "UNCOVER: Candidate Red Active Galactic Nuclei at 3 < z < 7 with JWST and ALMA". The Astrophysical Journal. 978 (1): 92. arXiv:2306.07320. Bibcode:2025ApJ...978...92L. doi:10.3847/1538-4357/ad3551.
  22. ^ a b Li, Zhengrong; Inayoshi, Kohei; Chen, Kejian; Ichikawa, Kohei; Ho, Luis C. (2025). "Little Red Dots: Rapidly Growing Black Holes Reddened by Extended Dusty Flows". The Astrophysical Journal. 980 (1): 36. arXiv:2407.10760. Bibcode:2025ApJ...980...36L. doi:10.3847/1538-4357/ada5fb.
  23. ^ Pacucci, Fabio. "JWST's 'Little Red Dots' Offer Astronomers the Universe's Weirdest Puzzle". Scientific American. Retrieved 2025-02-19.
  24. ^ a b Ruqiu Lin; Zhen-Ya Zheng; Chunyan Jiang; Fang-Ting Yuan; Luis C. Ho; Junxian Wang; Linhua Jiang; James E. Rhoads; Sangeeta Malhotra; L. Felipe Barrientos; Isak Wold; Leopoldo Infante; Shuairu Zhu; Xiang Ji; Xiaodan Fu (17 February 2025). "Discovery of Local Analogs to JWST's Little Red Dots". The Astrophysical Journal. 980 (2): 9. arXiv:2412.08396v1. Bibcode:2025ApJ...980L..34L. doi:10.3847/2041-8213/adaaf1.
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