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Godzilla (star)

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Godzilla (star)
[[File:|3000px|alt=]]
The transient candidate dubbed Godzilla is the bright spot at the very center, at the left edge of the arc and immediately above the orange, foreground star. Cropped from original image.[1]
Credit: ESA/Hubble, NASA, Rivera-Thorsen et al.
Observation data
Epoch J2000.0      Equinox J2000.0
Constellation Apus
Right ascension 15h 50m 00.66s[1]
Declination −78° 11′ 09.96″[1]
Characteristics
Evolutionary stage LBV?[1]
Astrometry
Absolute magnitude (MV)-17.3 – -14.8,[a] <-14.7[b][1]
Details
Radius430 – 2,365[1] R
Luminosity134,000,000 – 255,000,000[1][c] L
Temperature15,000 – 30,000[1] K
Other designations
Godzilla star

Godzilla is a variable star in the Sunburst galaxy at redshift z = 2.37 (or 10.9 billion light years from Earth), observed through the gravitational lens PSZ1 G311.65-18.48.[1] It was originally identified in the NW arc as a possible transient event in images taken with the Hubble Space Telescope (HST).[2]

As of October 2022, it is the most luminous star that can be currently observed.[1][3] This is possible because the star is believed to be undergoing an episode of temporary increased luminosity that has lasted at least seven years, combined with an estimated magnification of at least a factor of 2000.

Some spectral features in Godzilla resemble those of other variable stars in the Milky Way Galaxy such as Eta Carinae, suggesting that Godzilla could be close to the end of its life. Godzilla is believed to be going through an episode similar to the Great Eruption of Eta Carinae in the 19th century, during which the star was likely among the brightest in the universe at about 50 million L.

The extreme magnification of Godzilla is partially due to a nearby substructure, probably a dwarf galaxy, not seen in the HST images (but recently detected in new JWST images),[4] that is also close to the critical curve of the cluster. This unobserved substructure is believed to be dominated by dark matter.[1]

Godzilla is named after the Kaiju and makes reference to its monstrous nature. Other stars named after Kaiju include Mothra, which shares many of the characteristics of Godzilla.[5]

Recently, a preprint[6] showed that Godzilla's source-frame ultraviolet light and nebular emission lines as measured by MUSE and X-shooter at the Very Large Telescope (VLT) can be quantitatively explained as that of a star cluster 4-6 Myr after formation and weighing millions of solar masses. The authors show that the ionized gas as the source of Godzilla's nebular emission is enriched with nitrogen and possibly oxygen and helium too, and suggest that the gas is stellar wind and supernova ejecta condensed in the gravitational potential of the star cluster and is excited by ionizing stellar radiation. Based on the non-detection of flux time variability, which should be induced by intracluster microlensing effects but would be diluted if the source consists of many stars,[7] the study suggests that Godzilla's magnification factor is lower than previously thought, in the range of hundreds. This casts doubt on the hypothesis that Godzilla's light is dominated by one or a few highly magnified stars.

See also

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Notes

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  1. ^ Assuming t1-t5 are counterimages.
  2. ^ Assuming t1-t5 are not counterimages.
  3. ^ Derived from model temperatures and radii (30,000 K, 2 AU, 15,000 K, 11 AU)

References

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  1. ^ a b c d e f g h i j k Diego, J. M.; Pascale, M.; Kavanagh, B. J.; Kelly, P.; Dai, L.; Frye, B.; Broadhurst, T. (2022). "Godzilla, a monster lurks in the Sunburst galaxy". Astronomy and Astrophysics. 665: A134. arXiv:2203.08158. Bibcode:2022A&A...665A.134D. doi:10.1051/0004-6361/202243605. S2CID 247476158.
  2. ^ Vanzella, E.; Meneghetti, M.; Pastorello, A.; Carulla, F. (2020). "Probing the circumstellar medium 2.8 Gyr after the big bang: detection of Bowen fluorescence in the Sunburst arc". Monthly Notices of the Royal Astronomical Society. 499 (1): L67–L71. arXiv:2004.08400. Bibcode:2020MNRAS.499L..67V. doi:10.1093/mnrasl/slaa163.
  3. ^ "Scientists face down 'Godzilla', the most luminous star known". Nature. 610 (7930): 10. 6 October 2022. Bibcode:2022Natur.610T..10.. doi:10.1038/d41586-022-03054-3. PMID 36171306. S2CID 252598653.
  4. ^ Choe, S.; Rivera-Thorsen, T.E.; Dahle, H. (2024). "The Sunburst Arc with JWST: II. Observations of an Eta Carinae Analog at z=2.37". arXiv:2405.06953 [astro-ph.GA].
  5. ^ Diego, J. M.; Bangzheng, S.; Yan, H. (2023). "JWST's PEARLS: Mothra, a new kaiju star at z = 2.091 extremely magnified by MACS0416, and implications for dark matter models". Astronomy and Astrophysics. 679: 31. arXiv:2307.10363. Bibcode:2023A&A...679A..31D. doi:10.1051/0004-6361/202347556.
  6. ^ Pascale, M.; Dai, L. (2024). "A Young Super Star Cluster Powering a Nebula of Retained Massive Star Ejecta". arXiv:2404.10755 [astro-ph.GA].
  7. ^ Dai, L. (2021). "Statistical microlensing towards magnified high-redshift star clusters". Monthly Notices of the Royal Astronomical Society. 501 (4): 5538–5553. arXiv:2007.01301. Bibcode:2021MNRAS.501.5538D. doi:10.1093/mnras/stab017.
  8. ^ Anderson, Natali (2023-11-28). "Mothra: Astronomers Spot Monster Binary Star in Distant Universe | Sci.News". Sci.News: Breaking Science News. Retrieved 2024-09-01.