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WASP-76b

April 12, 2024

WASP-76b is an exoplanet classified as a Hot Jupiter. It is located in the constellation Pisces and orbits its host star, WASP-76, at a distance of approximately 0.033 astronomical units (AU). The orbital period of WASP-76b is approximately 1.8 days. Its mass is about 0.92 times that of Jupiter.[4][5][6] The discovery of WASP-76b took place on October 21, 2013, and it is currently the only known planet in the WASP-76 system as of 2022. The equilibrium temperature of WASP-76b is estimated to be around 2,190 K (1,920 °C; 3,480 °F), However, the measured daytime temperature is higher, reaching approximately 2,500 ± 200 K (2,227 ± 200 °C; 4,040 ± 360 °F).[3]

WASP-76b
Artistic image of WASP-76b (based on 2020 data)
Discovery
Discovered byR.G. West et al. (SuperWASP)[1]
Discovery dateOctober 21, 2013
Transit (including secondary eclipses)
Orbital characteristics[2]
0.033±0.0005 AU
Eccentricity0
1.809886±0.000001 d
Inclination88.0°±1.6°
StarWASP-76
Physical characteristics
Mean radius
1.83±0.06 RJ
Mass0.92±0.03 MJ
Temperature2500±200 K[3]
An artist's illustration showing WASP-76b during its night hours.

Atmospheric composition edit

Data collected from the Hubble and Spitzer Space Telescopes have provided evidence of titanium oxide and small amounts of water within the atmosphere of WASP-76b.[7] Further analysis using higher-resolution spectra has revealed the presence of ionized elements such as lithium, sodium, magnesium, calcium, manganese, potassium, and iron.[8] The existence of calcium (Ca) was confirmed by the Gemini North Observatory in 2021,[9][10][11] and in 2022, the element barium (Ba) was also detected.[12]

The atmosphere of WASP-76b is characterized as cloudy, predominantly grey, and exhibits significant thermal incandescence.[13]

In April 2024, it was suggested that a glory effect in the atmosphere of WASP-76b might be responsible for the observed increase in brightness of its eastern terminator zone. If this interpretation could be confirmed, it would become the first extrasolar glory-like phenomenon to be discovered.[14]

Iron rain edit

In March 2020, an initial spectroscopic analysis revealed the presence of neutral iron in the atmosphere of WASP-76b. The conditions required for the vaporization and condensation of neutral iron were determined to be a temperature of 2,400 °C (2,700 K; 4,400 °F) and a lower temperature of 1,400 °C (1,700 K; 2,600 °F) for condensation. Under these specific temperature conditions, neutral iron could potentially precipitate like liquid rain.[15]

In May 2020, the Hubble Space Telescope discovered that the previous spectrum of WASP-76b had been distorted by the light from a companion star. Subsequently, an updated atmospheric model was developed using the most recent spectrum data. The revised model indicates the presence of a cloudy hydrogen-helium envelope and suggests the absence of previously reported neutral iron, including "iron rain."[16] Additionally, only upper limits on the presence of titanium and vanadium oxides were detected.[13] By 2021, the controversy surrounding the presence of iron condensation had been resolved by demonstrating that the observed signal may also be due to temperature variations between different parts of the planet. However, existing data is insufficient to definitively distinguish between these two scenarios.[17]

Based on planetary atmospheric circulation models for WASP-76b, it is suggested that dense cloud layers composed of aluminum oxide, neutral iron, or magnesium orthosilicate may form. However, significant condensation of iron on the night side of the planet is not indicated by the available data.[18]

See also edit

References edit

  1. ^ West, R. G.; Hellier, C.; et al. (January 8, 2016). "Three irradiated and bloated hot Jupiters". Astronomy & Astrophysics. 585: A126. arXiv:1310.5607. doi:10.1051/0004-6361/201527276. S2CID 54746373.
  2. ^ "Planet WASP-76 b". Extrasolar Planets Encyclopaedia. March 7, 2022. from the original on December 22, 2023. Retrieved August 28, 2022.
  3. ^ a b Zhou, G.; Bayliss, D. D. R.; et al. (December 11, 2015) [October 16, 2015]. "Secondary eclipse observations for seven hot-Jupiters from the Anglo-Australian Telescope". Monthly Notices of the Royal Astronomical Society. 454 (3): 3002–3019. arXiv:1509.04147. Bibcode:2015MNRAS.454.3002Z. doi:10.1093/mnras/stv2138. S2CID 84835437. Retrieved March 21, 2022.
  4. ^ "WASP-76 b". Exoplanet Exploration: Planets Beyond our Solar System. NASA. n.d. Retrieved March 21, 2022.
  5. ^ Ehrenreich, David; et al. (March 11, 2020). "ESO Telescope Observes Exoplanet Where It Rains Iron". European Southern Observatory. Retrieved March 21, 2022.
  6. ^ "On a faraway planet, it's cloudy with a chance of liquid iron rain". NBC News. Reuters. March 11, 2020. Retrieved May 3, 2020.
  7. ^ Fu, Guangwei; Deming, Drake; et al. (August 17, 2021). "The Hubble PanCET Program: Transit and Eclipse Spectroscopy of the Strongly Irradiated Giant Exoplanet WASP-76b". The Astronomical Journal. 162 (3): 108. arXiv:2005.02568. Bibcode:2021AJ....162..108F. doi:10.3847/1538-3881/ac1200. ISSN 0004-6256. S2CID 218517004.
  8. ^ Tabernero, H. M.; Osorio, M. R. Zapatero; et al. (February 19, 2021). "ESPRESSO high resolution transmission spectroscopy of WASP-76b". Astronomy & Astrophysics. 646. 17. arXiv:2011.12197. Bibcode:2021A&A...646A.158T. doi:10.1051/0004-6361/202039511. ISSN 0004-6361. S2CID 227151361. Retrieved May 24, 2022.
  9. ^ Casasayas-Barris, N.; Orell-Miquel, J.; et al. (October 27, 2021). "CARMENES detection of the Ca II infrared triplet and possible evidence of He I in the atmosphere of WASP-76b". Astronomy & Astrophysics. 654. 20. arXiv:2109.00059. doi:10.1051/0004-6361/202141669. ISSN 0004-6361. S2CID 237376656. Retrieved May 24, 2022.
  10. ^ Deibert, Emily K.; de Mooij, Ernst J. W.; et al. (September 28, 2021). "Detection of Ionized Calcium in the Atmosphere of the Ultra-hot Jupiter WASP-76b". The Astrophysical Journal Letters. 919 (2): L15. arXiv:2109.04373. Bibcode:2021ApJ...919L..15D. doi:10.3847/2041-8213/ac2513. ISSN 2041-8205. S2CID 237452713.
  11. ^ Source, News Staff / (October 13, 2022). "Barium Detected in Atmospheres of Two Ultrahot Jupiters | Sci.News". Sci.News: Breaking Science News. Retrieved October 15, 2022.
  12. ^ Azevedo Silva, T.; et al. (2022), "Detection of barium in the atmospheres of the ultra-hot gas giants WASP-76b and WASP-121b", Astronomy & Astrophysics, 666: L10, arXiv:2210.06892, doi:10.1051/0004-6361/202244489, S2CID 252873126
  13. ^ a b Edwards, Billy; Changeat, Quentin; et al. (June 9, 2020). "ARES I: WASP-76 b, A Tale of Two HST Spectra*". The Astronomical Journal. 160 (1): 8. arXiv:2005.02374. Bibcode:2020AJ....160....8E. doi:10.3847/1538-3881/ab9225. S2CID 218502668.
  14. ^ Agency, European Space. "Astronomers detect potential 'glory effect' on a hellish distant world for the first time". phys.org. Retrieved April 7, 2024.
  15. ^ Amos, Jonathan (March 11, 2020). "Wasp-76b: The exotic inferno planet where it 'rains iron'". BBC News. Retrieved May 3, 2020.
  16. ^ Lothringer, Joshua D.; Fu, Guangwei; et al. (July 21, 2020). "UV Exoplanet Transmission Spectral Features as Probes of Metals and Rainout". The Astrophysical Journal. 898 (1): L14. arXiv:2005.02528. Bibcode:2020ApJ...898L..14L. doi:10.3847/2041-8213/aba265. S2CID 218516764.
  17. ^ Wardenier, Joost P; Parmentier, Vivien; et al. (June 26, 2021). "Decomposing the iron cross-correlation signal of the ultra-hot Jupiter WASP-76b in transmission using 3D Monte Carlo radiative transfer". Monthly Notices of the Royal Astronomical Society. 506 (1): 1258–1283. arXiv:2105.11034. doi:10.1093/mnras/stab1797. ISSN 0035-8711. Retrieved May 24, 2022.
  18. ^ Savel, Arjun B.; Kempton, Eliza M.-R.; et al. (February 15, 2022). "No Umbrella Needed: Confronting the Hypothesis of Iron Rain on WASP-76b with Post-processed General Circulation Models". The Astrophysical Journal. 926 (1): 85. arXiv:2109.00163. Bibcode:2022ApJ...926...85S. doi:10.3847/1538-4357/ac423f. ISSN 0004-637X. S2CID 237372235.

April 12, 2024
wasp, exoplanet, classified, jupiter, located, constellation, pisces, orbits, host, star, wasp, distance, approximately, astronomical, units, orbital, period, approximately, days, mass, about, times, that, jupiter, discovery, took, place, october, 2013, curren. WASP 76b is an exoplanet classified as a Hot Jupiter It is located in the constellation Pisces and orbits its host star WASP 76 at a distance of approximately 0 033 astronomical units AU The orbital period of WASP 76b is approximately 1 8 days Its mass is about 0 92 times that of Jupiter 4 5 6 The discovery of WASP 76b took place on October 21 2013 and it is currently the only known planet in the WASP 76 system as of 2022 The equilibrium temperature of WASP 76b is estimated to be around 2 190 K 1 920 C 3 480 F However the measured daytime temperature is higher reaching approximately 2 500 200 K 2 227 200 C 4 040 360 F 3 WASP 76bArtistic image of WASP 76b based on 2020 data DiscoveryDiscovered byR G West et al SuperWASP 1 Discovery dateOctober 21 2013Detection methodTransit including secondary eclipses Orbital characteristics 2 Semi major axis0 033 0 0005 AUEccentricity0Orbital period sidereal 1 809886 0 000001 dInclination88 0 1 6 StarWASP 76Physical characteristicsMean radius1 83 0 06 RJMass0 92 0 03 MJTemperature2500 200 K 3 An artist s illustration showing WASP 76b during its night hours Contents 1 Atmospheric composition 1 1 Iron rain 2 See also 3 ReferencesAtmospheric composition editData collected from the Hubble and Spitzer Space Telescopes have provided evidence of titanium oxide and small amounts of water within the atmosphere of WASP 76b 7 Further analysis using higher resolution spectra has revealed the presence of ionized elements such as lithium sodium magnesium calcium manganese potassium and iron 8 The existence of calcium Ca was confirmed by the Gemini North Observatory in 2021 9 10 11 and in 2022 the element barium Ba was also detected 12 The atmosphere of WASP 76b is characterized as cloudy predominantly grey and exhibits significant thermal incandescence 13 In April 2024 it was suggested that a glory effect in the atmosphere of WASP 76b might be responsible for the observed increase in brightness of its eastern terminator zone If this interpretation could be confirmed it would become the first extrasolar glory like phenomenon to be discovered 14 Iron rain edit In March 2020 an initial spectroscopic analysis revealed the presence of neutral iron in the atmosphere of WASP 76b The conditions required for the vaporization and condensation of neutral iron were determined to be a temperature of 2 400 C 2 700 K 4 400 F and a lower temperature of 1 400 C 1 700 K 2 600 F for condensation Under these specific temperature conditions neutral iron could potentially precipitate like liquid rain 15 In May 2020 the Hubble Space Telescope discovered that the previous spectrum of WASP 76b had been distorted by the light from a companion star Subsequently an updated atmospheric model was developed using the most recent spectrum data The revised model indicates the presence of a cloudy hydrogen helium envelope and suggests the absence of previously reported neutral iron including iron rain 16 Additionally only upper limits on the presence of titanium and vanadium oxides were detected 13 By 2021 the controversy surrounding the presence of iron condensation had been resolved by demonstrating that the observed signal may also be due to temperature variations between different parts of the planet However existing data is insufficient to definitively distinguish between these two scenarios 17 Based on planetary atmospheric circulation models for WASP 76b it is suggested that dense cloud layers composed of aluminum oxide neutral iron or magnesium orthosilicate may form However significant condensation of iron on the night side of the planet is not indicated by the available data 18 See also editWASP 7b WASP 12b WASP 121bReferences edit West R G Hellier C et al January 8 2016 Three irradiated and bloated hot Jupiters Astronomy amp Astrophysics 585 A126 arXiv 1310 5607 doi 10 1051 0004 6361 201527276 S2CID 54746373 Planet WASP 76 b Extrasolar Planets Encyclopaedia March 7 2022 Archived from the original on December 22 2023 Retrieved August 28 2022 a b Zhou G Bayliss D D R et al December 11 2015 October 16 2015 Secondary eclipse observations for seven hot Jupiters from the Anglo Australian Telescope Monthly Notices of the Royal Astronomical Society 454 3 3002 3019 arXiv 1509 04147 Bibcode 2015MNRAS 454 3002Z doi 10 1093 mnras stv2138 S2CID 84835437 Retrieved March 21 2022 WASP 76 b Exoplanet Exploration Planets Beyond our Solar System NASA n d Retrieved March 21 2022 Ehrenreich David et al March 11 2020 ESO Telescope Observes Exoplanet Where It Rains Iron European Southern Observatory Retrieved March 21 2022 On a faraway planet it s cloudy with a chance of liquid iron rain NBC News Reuters March 11 2020 Retrieved May 3 2020 Fu Guangwei Deming Drake et al August 17 2021 The Hubble PanCET Program Transit and Eclipse Spectroscopy of the Strongly Irradiated Giant Exoplanet WASP 76b The Astronomical Journal 162 3 108 arXiv 2005 02568 Bibcode 2021AJ 162 108F doi 10 3847 1538 3881 ac1200 ISSN 0004 6256 S2CID 218517004 Tabernero H M Osorio M R Zapatero et al February 19 2021 ESPRESSO high resolution transmission spectroscopy of WASP 76b Astronomy amp Astrophysics 646 17 arXiv 2011 12197 Bibcode 2021A amp A 646A 158T doi 10 1051 0004 6361 202039511 ISSN 0004 6361 S2CID 227151361 Retrieved May 24 2022 Casasayas Barris N Orell Miquel J et al October 27 2021 CARMENES detection of the Ca II infrared triplet and possible evidence of He I in the atmosphere of WASP 76b Astronomy amp Astrophysics 654 20 arXiv 2109 00059 doi 10 1051 0004 6361 202141669 ISSN 0004 6361 S2CID 237376656 Retrieved May 24 2022 Deibert Emily K de Mooij Ernst J W et al September 28 2021 Detection of Ionized Calcium in the Atmosphere of the Ultra hot Jupiter WASP 76b The Astrophysical Journal Letters 919 2 L15 arXiv 2109 04373 Bibcode 2021ApJ 919L 15D doi 10 3847 2041 8213 ac2513 ISSN 2041 8205 S2CID 237452713 Source News Staff October 13 2022 Barium Detected in Atmospheres of Two Ultrahot Jupiters Sci News Sci News Breaking Science News Retrieved October 15 2022 Azevedo Silva T et al 2022 Detection of barium in the atmospheres of the ultra hot gas giants WASP 76b and WASP 121b Astronomy amp Astrophysics 666 L10 arXiv 2210 06892 doi 10 1051 0004 6361 202244489 S2CID 252873126 a b Edwards Billy Changeat Quentin et al June 9 2020 ARES I WASP 76 b A Tale of Two HST Spectra The Astronomical Journal 160 1 8 arXiv 2005 02374 Bibcode 2020AJ 160 8E doi 10 3847 1538 3881 ab9225 S2CID 218502668 Agency European Space Astronomers detect potential glory effect on a hellish distant world for the first time phys org Retrieved April 7 2024 Amos Jonathan March 11 2020 Wasp 76b The exotic inferno planet where it rains iron BBC News Retrieved May 3 2020 Lothringer Joshua D Fu Guangwei et al July 21 2020 UV Exoplanet Transmission Spectral Features as Probes of Metals and Rainout The Astrophysical Journal 898 1 L14 arXiv 2005 02528 Bibcode 2020ApJ 898L 14L doi 10 3847 2041 8213 aba265 S2CID 218516764 Wardenier Joost P Parmentier Vivien et al June 26 2021 Decomposing the iron cross correlation signal of the ultra hot Jupiter WASP 76b in transmission using 3D Monte Carlo radiative transfer Monthly Notices of the Royal Astronomical Society 506 1 1258 1283 arXiv 2105 11034 doi 10 1093 mnras stab1797 ISSN 0035 8711 Retrieved May 24 2022 Savel Arjun B Kempton Eliza M R et al February 15 2022 No Umbrella Needed Confronting the Hypothesis of Iron Rain on WASP 76b with Post processed General Circulation Models The Astrophysical Journal 926 1 85 arXiv 2109 00163 Bibcode 2022ApJ 926 85S doi 10 3847 1538 4357 ac423f ISSN 0004 637X S2CID 237372235 Retrieved from https en wikipedia org w index php title WASP 76b amp oldid 1217731653, wikipedia, wiki, book, books, library,

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