HIP 65426 b

HIP 65426 b is a designation inherited from the host star's name, HIP 65426, following the exoplanet naming convention, where exoplanets receive lowercase letters. The designation HIP 65426 has its origin on the Hipparcos catalogue.{{Cite web |title=Details on Acronym: HIP |url=https://cds.unistra.fr/cgi-bin/Dic-Simbad?HIP |access-date=2025-01-08 |website=SIMBAD}}

In August 2022, this planet and its host star were included among 20 systems to be named by the third NameExoWorlds project.{{cite web |url=https://www.nameexoworlds.iau.org/2022exoworlds |title=List of ExoWorlds 2022 |date=8 August 2022 |website=nameexoworlds.iau.org |publisher=IAU |access-date=27 August 2022}} The approved names, proposed by a team from Mexico, were announced in June 2023. HIP 65426 b is named Najsakopajk and its host star is named Matza, after Zoque words for "Mother Earth" and "star".

The exoplanet HIP 65426 b orbits its host star HIP 65426, an A-type main-sequence star with apparent magnitude 7.01, with a mass of {{val|1.96|0.04|ul=solar mass}}, a radius of {{val|1.77|0.05|ul=solar radius}} and an effective temperature of {{cvt|8840|K|C|lk=in|abbr=on}}.{{cite EPE|name=HIP 65426 b|id=6586}} This planetary system is located in the constellation Centaurus. The planet is around 14 million years old, much younger than the Solar System which is 4.5 billion years old, but is not associated with a debris disk, despite its young age, causing it to not fit current models for planetary formation.{{Cite web|url=https://phys.org/news/2017-07-discovery-exoplanet-spherevlt.html|title=Odd planetary system around fast-spinning star doesn't quite fit existing models of planet formation|website=phys.org|language=en-us|access-date=2019-08-03}} It is around 92 AU from its parent star, with a possible dusty atmosphere.{{Cite web|url=https://astronomy.com/news/2017/07/fast-spinning-exoplanet-system-deeper|title=New exoplanet challenges formation models|first1=Mara|last1=Johnson-Groh|last2=July 12, 2017|website=Astronomy.com|date=12 July 2017 |access-date=2019-08-03}} It was discovered as part of the SHINE program, which aimed to find planetary systems around 600 new stars.

In September 2022, HIP 65426 b became the first exoplanet directly observed by the James Webb Space Telescope.{{cite web |first=Alise |last=Fisher |title=NASA's Webb Takes Its First-Ever Direct Image of Distant World |url=https://blogs.nasa.gov/webb/2022/09/01/nasas-webb-takes-its-first-ever-direct-image-of-distant-world/?linkId=179637235 |website=NASA Blogs |publisher=NASA |date=2022-09-01 |access-date=2022-09-01}}

The spectrum taken in 2020 has indicated that HIP 65426 b is carbon-poor and oxygen-rich compared to Solar System gas giants.

Spectral analysis of data from the James Webb Space Telescope revealed strong evidence of silicate clouds containing enstatite with no evidence of a dusty atmosphere.{{Cite journal |last=Wang 王 |first=Ji 吉 |date=2023-11-01 |title=Spectral Retrieval with JWST Photometric data: a Case Study for HIP 65426 b |journal=The Astronomical Journal |volume=166 |issue=5 |pages=203 |doi=10.3847/1538-3881/acfca0 |issn=0004-6256|doi-access=free |arxiv=2310.00089 |bibcode=2023AJ....166..203W }}

In August 2022, a pre-print of the James Webb Space Telescope (JWST) observations was published. The JWST direct imaging observations between 2-16 μm of HIP 65426 b tightly constrained its bolometric luminosity to $\backslash log(L\_\{bol\}/L\_\{sun\})=-4.23\backslash plusmn0.08$, which provides a robust mass constraint of {{val|7.1|1.2|ul=Jupiter mass}}. Evolutionary models suggest a radius 45% larger than that of Jupiter and an effective temperature of {{convert|1283|K|C|lk=in|abbr=on}}. Atmospheric models suggest lower radii down to {{Jupiter radius|0.9}} and higher temperatures, but these results are unreliable. The team also constrained the semi-major axis and the inclination of the planet, but the new JWST astrometry of the planet did not significantly improve the orbit of the planet, especially the eccentricity remains unconstrained.

HIP 65426 b is the first exoplanet to be imaged by JWST and the first to be detected in wavelengths beyond 5 μm. The observations demonstrate that the James Webb Space Telescope will exceed its nominal predicted performance by a factor of 10 and that it will be able to image 0.3 {{Jupiter mass|link=true}} planets at 100 au for main-sequence stars, Neptune and Uranus-mass objects at 100-200 au for M-dwarfs and Saturn-mass objects at 10 au for M-dwarfs. For α Cen A JWST might be able to push the limit to a 5 {{Earth radius|link=true}} planet at 0.5 to 2.5 au.

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{{multiple images |header= |direction= horizontal | caption_align=center |align=center |wdith= |image1=HIP 65426-starmap.png |caption1=HIP 65426 star map |width1=400 |image2=NASA’s Webb Takes Its First-Ever Direct Image of Distant World.png |caption2=HIP 65426 b viewed by the James Webb Space Telescope (August 2022) |width2=528 |footer= }}

• Lists of exoplanets
• List of exoplanets discovered in 2017

{{reflist|refs=

{{Cite journal|title=Discovery of a warm, dusty giant planet around HIP 65426|journal = Astronomy and Astrophysics|volume = 605|pages = L9|bibcode = 2017A&A...605L...9C|last1 = Chauvin|first1 = G.|last2 = Desidera|first2 = S.|last3 = Lagrange|first3 = A. -M.|last4 = Vigan|first4 = A.|last5 = Gratton|first5 = R.|last6 = Langlois|first6 = M.|last7 = Bonnefoy|first7 = M.|last8 = Beuzit|first8 = J. -L.|last9 = Feldt|first9 = M.|last10 = Mouillet|first10 = D.|last11 = Meyer|first11 = M.|last12 = Cheetham|first12 = A.|last13 = Biller|first13 = B.|last14 = Boccaletti|first14 = A.|last15 = d'Orazi|first15 = V.|last16 = Galicher|first16 = R.|last17 = Hagelberg|first17 = J.|last18 = Maire|first18 = A. -L.|last19 = Mesa|first19 = D.|last20 = Olofsson|first20 = J.|last21 = Samland|first21 = M.|last22 = Schmidt|first22 = T. O. B.|last23 = Sissa|first23 = E.|last24 = Bonavita|first24 = M.|last25 = Charnay|first25 = B.|last26 = Cudel|first26 = M.|last27 = Daemgen|first27 = S.|last28 = Delorme|first28 = P.|last29 = Janin-Potiron|first29 = P.|last30 = Janson|first30 = M.|display-authors = 29|year = 2017|arxiv = 1707.01413|doi = 10.1051/0004-6361/201731152|s2cid = 102344893}}

{{Cite web|url=http://www.independent.co.uk/news/science/planets-hip-65426b-scientists-stars-solar-systems-sun-a7830556.html|title=Scientists have found a planet that means everything they thought about planets isn't true|date=2017-07-08|website=The Independent|language=en|access-date=2019-08-02}}

{{Cite web|url=http://www.sci-news.com/astronomy/super-jupiter-hip-65426-05023.html|title=Astronomers Directly Image Super-Jupiter around HIP 65426 {{!}} Astronomy {{!}} Sci-News.com|website=Breaking Science News {{!}} Sci-News.com|language=en-US|access-date=2019-08-02}}

{{Cite web|url=https://exoplanets.nasa.gov/news/1477/holiday-special-eight-nights-of-exoplanet-light/|title=Holiday Special: Eight nights of Exoplanet Light|publisher=NASA|website=Exoplanet Exploration: Planets Beyond our Solar System|access-date=2019-08-03}}

{{citation|arxiv=2012.02798|title=Medium-resolution spectrum of the exoplanet HIP 65426 B|year=2021|doi=10.1051/0004-6361/202038914|last1=Petrus|first1=S.|last2=Bonnefoy|first2=M.|last3=Chauvin|first3=G.|last4=Charnay|first4=B.|last5=Marleau|first5=G.-D.|last6=Gratton|first6=R.|last7=Lagrange|first7=A.-M.|last8=Rameau|first8=J.|last9=Mordasini|first9=C.|last10=Nowak|first10=M.|last11=Delorme|first11=P.|last12=Boccaletti|first12=A.|last13=Carlotti|first13=A.|last14=Houllé|first14=M.|last15=Vigan|first15=A.|last16=Allard|first16=F.|last17=Desidera|first17=S.|last18=d'Orazi|first18=V.|last19=Hoeijmakers|first19=H. J.|last20=Wyttenbach|first20=A.|last21=Lavie|first21=B.|journal=Astronomy & Astrophysics|volume=648|pages=A59|bibcode=2021A&A...648A..59P|s2cid=227347064}}

{{cite journal |last1=Carter |first1=Aarynn L. |last2=Hinkley |first2=Sasha |last3=Kammerer |first3=Jens |last4=Skemer |first4=Andrew |last5=Biller |first5=Beth A. |last6=Leisenring |first6=Jarron M. |last7=Millar-Blanchaer |first7=Maxwell A. |last8=Petrus |first8=Simon |last9=Stone |first9=Jordan M. |last10=Ward-Duong |first10=Kimberly |last11=Wang |first11=Jason J. |last12=Girard |first12=Julien H. |last13=Hines |first13=Dean C. |last14=Perrin |first14=Marshall D. |last15=Pueyo |first15=Laurent |title=The JWST Early Release Science Program for Direct Observations of Exoplanetary Systems I: High Contrast Imaging of the Exoplanet HIP 65426 b from 2-16 μm |arxiv=2208.14990 | doi=10.3847/2041-8213/acd93e | journal=The Astrophysical Journal Letters | date=2023-07-06 | volume=951 | issue=1 | pages=L20 |doi-access=free | bibcode=2023ApJ...951L..20C}}

{{cite web |url=https://www.nameexoworlds.iau.org/2022approved-names |title=2022 Approved Names |website=nameexoworlds.iau.org |publisher=IAU |access-date=7 June 2023}}

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{{Centaurus}}

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Category:Exoplanets detected by direct imaging

Category:Exoplanets discovered in 2017

Category:Giant planets

Category:Centaurus

Category:Exoplanets with proper names