HD 110067

HD 110067
Observation data; EpochJ2000EquinoxJ2000
Constellation	Coma Berenices
Right ascension	12h39m21.50369s
Declination	+20° 01′ 40.0360″
Apparent magnitude(V)	8.43
Characteristics
Evolutionary stage	Main sequence
Spectral type	K0V
Astrometry
Radial velocity(Rv)	−8.56±0.13km/s
Proper motion(μ)	RA:-81.703mas/yr; Dec.:-104.532mas/yr
Parallax(π)	31.0369 ± 0.0222mas
Distance	105.09 ± 0.08ly; (32.22 ± 0.02pc)
Details
Mass	0.798±0.042M☉
Radius	0.788±0.008R☉
Surface gravity(logg)	4.54±0.03cgs
Temperature	5266±64K
Metallicity[Fe/H]	−0.20±0.04dex
Rotational velocity(vsini)	2.5±1.0km/s
Age	8.1±4.0Gyr
Other designations
	BD+20 2748,HD110067,SAO82424,TOI-1835,TIC347332255,TYC1448-433-1
Database references
SIMBAD	data
Exoplanet Archive	data

HD 110067is a star with six knownsub-Neptune exoplanets(b, c, d, e, f, g) with radii ranging from 1.94 $R$ _⊕to 2.85 $R$ _⊕.The planets orbit the host star in a rhythmicorbital resonance.The star, and related planetary system, is located 105light-yearsaway in the constellationComa Berenices.^[3]^[4]^[5]^[6]^[7]^[8]^[9]^[10]

HD 110067 is part of a widetriple star system,along with thespectroscopic binarysystemHD 110106.^[11]

Description

HD 110067, located 100light-yearsaway in the constellation Coma Berenices, is orbited by six known sub-Neptune exoplanets (b, c, d, e, f, g) with radii ranging from 1.94 $R$ _⊕to 2.85 $R$ _⊕,and with densities (and solid cores) similar to that ofgas giantsin the Solar System. None of the planets in the planetary system were found to be in thehabitable zoneforlifeas we know it.^[8]

Discovery

The two innermost exoplanets orbiting HD 110067, a brightK0-type star,were first detected by theTESS(NASA)space telescope,using thetransit method,in 2020. The remaining four exoplanets were later confirmed in 2023 as a result of additional observations using theCHEOPS(European Space Agency) space telescope.^[9]

Scientific importance

On 29 November 2023, an international team of astronomers, led by Rafael Luque, astronomer from theUniversity of Chicago,published a review of the discovery in the journalNatureentitled, "A resonant sextuplet of sub-Neptunes transiting the bright star HD 110067".^[3]According to Luque, "It’s like looking at a fossil: The orbits of the planets today are the same as they were a billion years ago."^[9]

Further study of the HD 110067 planetary system may provide a better understanding of how the pattern of the planetary orbits in theSolar Systemarose, which once may have begun harmoniously, but later turned chaotic. The result, possibly, of a passing star or planet or some otherastronomical objectcapable of disrupting the nascent harmonic orbital dynamics. Additionally, further studies of the system, including compositional studies of the planetary interiors and atmospheres, may also provide a better understanding of the conditions that potentially may supportlife.^[9]

The six planets in the HD 110067 system are all smaller than Neptune, and revolve around their parent star in a very precise waltz: When the closest planet to the star makes three full revolutions around it, the second one makes exactly two during the same time; this is called a 3:2 resonance; the six planets form a resonant chain in pairs of 3:2, 3:2, 3:2, 4:3, and 4:3, resulting in the closest planet completing six orbits while the outer-most planet does one.^[12]

Planetary system

Six knownsub-Neptune exoplanets(b, c, d, e, f, g) with planetary radii ranging from 1.94 $R$ _⊕to 2.85 $R$ _⊕from HD 110067, the host star. All planets are smaller than Neptune and have large atmospheres. The star and related planetary system are located 100 light years away, in the constellationComa Berenices.Masses of all six of the planets in the system range from 3.9 $M$ _⊕(mass of Earth) to 8.5 $M$ _⊕.All of the planetary orbits in the HD 110067 system are closer to their star than distance between the planetMercuryand theSun.^[3]^[4]

The planets orbit the host star in synchronized rhythms oforbital resonance(a rare 1 percent of such systems in theMilky Way galaxyhave this symmetry): the innermost planet orbits three times for every two times for the next planet out – a so-called 3:2 resonance; this same 3:2 resonance also applies to the second and third planet, as well as to the third and fourth planet; whereas the fourth planet orbits four times for every three times for the fifth planet out – in a so-called 4:3 resonance; additionally, the penultimate fifth planet orbits the sixth planet out in this same 4:3 resonance. Further, the innermost planet completes six orbits in exactly the same time the outermost planet completes one orbit.^[3]^[4]^[5]^[6]^[7]^[8]^[9]^[10]

The resonance ratio for the entire system is 54:36:24:16:12:9.^[3]^[4]The resonance period is ~492 $d$ _⊕(Earth-days).^{[citation needed]}

The HD 110067 planetary system^[3]
Companion (in order from star)	Mass	Semimajor axis (AU)	Orbital period (days)	Eccentricity	Inclination	Radius
b	5.69+1.78 −1.82 $M$ _🜨	0.0793±0.00096	9.113678(10)	—	89.061±0.099°	2.200±0.030 $R$ _🜨
c	< 6.3 $M$ _🜨	0.1039±0.0013	13.673694(24)	—	89.687±0.163°	2.388±0.036 $R$ _🜨
d	8.52+3.31 −3.25 $M$ _🜨	0.1362±0.0017	20.519617(40)	—	89.248±0.046°	2.852±0.039 $R$ _🜨
e	< 3.9 $M$ _🜨	0.1785±0.0022	30.793091(12)	—	89.867±0.089°	1.940±0.040 $R$ _🜨
f	5.04+1.89 −1.94 $M$ _🜨	0.2163±0.0026	41.05854(10)	—	89.673±0.046°	2.601±0.042 $R$ _🜨
g	< 8.4 $M$ _🜨	0.2621±0.0032	54.76992(20)	—	89.729±0.073°	2.607±0.052 $R$ _🜨

References

^^a ^b ^c ^d ^eVallenari, A.; et al. (Gaia collaboration) (2023)."GaiaData Release 3. Summary of the content and survey properties ".Astronomy and Astrophysics.674:A1.arXiv:2208.00211.Bibcode:2023A&A...674A...1G.doi:10.1051/0004-6361/202243940.S2CID 244398875. Gaia DR3 record for this sourceatVizieR.
^^a ^b ^c"HD 110067".SIMBAD.Centre de données astronomiques de Strasbourg.Retrieved1 December2023.
^^a ^b ^c ^d ^e ^f ^gLuque, R.; Osborn, H.P.; et al. (29 November 2023). "A resonant sextuplet of sub-Neptunes transiting the bright star HD 110067".Nature.623(7989): 932–937.arXiv:2311.17775.Bibcode:2023Natur.623..932L.doi:10.1038/s41586-023-06692-3.
^^a ^b ^c ^dClery, Daniel (19 November 2023)."Astronomers stunned by six-planet system frozen in time - Undisturbed family of" sub-Neptunes "in rhythmic orbits could hold clues to planet formation".Science.doi:10.1126/science.ze93fui.Archivedfrom the original on 29 November 2023.Retrieved19 November2023.
^^a ^bBrennan, Pat (29 November 2023)."Watch the synchronized dance of a 6 planet system".Discovery Alert.NASA.gov.Archivedfrom the original on 30 November 2023.Retrieved29 November2023.
^^a ^bKathunur, Sharmila (30 November 2023)."Six-planet system in perfect harmony shocks scientists: Six" sub-Neptune "worlds locked in a delicate dance around a nearby star offer fresh insights for the orbital evolution of planetary systems".Scientific American.Archivedfrom the original on 30 November 2023.Retrieved30 November2023.
^^a ^bKlesman, Alison (29 November 2023)."'Shocked and delighted': Astronomers find six planets orbiting in resonance – orbiting the brightest star ever found to host more than four planets, all have rocky or icy cores and extended atmosphere ".Astronomy.Archivedfrom the original on 30 November 2023.Retrieved29 November2023.
^^a ^b ^cDunn, Marcia (29 November 2023)."NASA satellites discovered a 6 planet solar system in perfect synchrony".PBS.org.PBS Newshour.Archivedfrom the original on 30 November 2023.Retrieved30 November2023.
^^a ^b ^c ^d ^eMiller, Katrina (29 November 2023)."A star with six planets that orbit perfectly in sync. One hundred light years away, a handful of planets are circling a star in the same configuration as when they formed".The New York Times.Archivedfrom the original on 29 November 2023.Retrieved30 November2023.
^^a ^bGhosh, Pallab (29 November 2023)."'Perfect solar system' found in search for alien life ".BBC.BBC News.Archivedfrom the original on 29 November 2023.Retrieved29 November2023.
^Apps, Kevin; Luque, Rafael (December 2023)."HD 110067 is a wide hierarchical triple system".Research Notes of the AAS.7(12): 12.arXiv:2312.04599.doi:10.3847/2515-5172/ad12d0.
^de Lazaro, Enrico (30 November 2023)."Astronomers discover resonant system of six sub-neptune exoplanets around HD 110067. The bright, nearby star HD 110067 hosts six transiting sub-Neptunes that follow a chain of resonant orbits, according to new research led by University of Chicago astronomers".Science News(sci.news).Archivedfrom the original on 2 December 2023.Retrieved2 December2023.

External links

HD 110067 – Planetary System (video; 2:33)onYouTube

[GaiaDR3-1] Vallenari, A.; et al. (Gaia collaboration) (2023)."GaiaData Release 3. Summary of the content and survey properties ".Astronomy and Astrophysics.674:A1.arXiv:2208.00211.Bibcode:2023A&A...674A...1G.doi:10.1051/0004-6361/202243940.S2CID 244398875. Gaia DR3 record for this sourceatVizieR.

[SIMBAD-2] "HD 110067".SIMBAD.Centre de données astronomiques de Strasbourg.Retrieved1 December2023.

[Luque2023-3] ^^a ^b ^c ^d ^e ^f ^gLuque, R.; Osborn, H.P.; et al. (29 November 2023). "A resonant sextuplet of sub-Neptunes transiting the bright star HD 110067".Nature.623(7989): 932–937.arXiv:2311.17775.Bibcode:2023Natur.623..932L.doi:10.1038/s41586-023-06692-3.

[SCI-20231129-4] Clery, Daniel (19 November 2023)."Astronomers stunned by six-planet system frozen in time - Undisturbed family of" sub-Neptunes "in rhythmic orbits could hold clues to planet formation".Science.doi:10.1126/science.ze93fui.Archivedfrom the original on 29 November 2023.Retrieved19 November2023.

[NASA-20231129-5] Brennan, Pat (29 November 2023)."Watch the synchronized dance of a 6 planet system".Discovery Alert.NASA.gov.Archivedfrom the original on 30 November 2023.Retrieved29 November2023.

[SA-20231130SK-6] Kathunur, Sharmila (30 November 2023)."Six-planet system in perfect harmony shocks scientists: Six" sub-Neptune "worlds locked in a delicate dance around a nearby star offer fresh insights for the orbital evolution of planetary systems".Scientific American.Archivedfrom the original on 30 November 2023.Retrieved30 November2023.

[AST-20231129-7] Klesman, Alison (29 November 2023)."'Shocked and delighted': Astronomers find six planets orbiting in resonance – orbiting the brightest star ever found to host more than four planets, all have rocky or icy cores and extended atmosphere ".Astronomy.Archivedfrom the original on 30 November 2023.Retrieved29 November2023.

[PBS-20231129-8] Dunn, Marcia (29 November 2023)."NASA satellites discovered a 6 planet solar system in perfect synchrony".PBS.org.PBS Newshour.Archivedfrom the original on 30 November 2023.Retrieved30 November2023.

[NYT-20231129-9] Miller, Katrina (29 November 2023)."A star with six planets that orbit perfectly in sync. One hundred light years away, a handful of planets are circling a star in the same configuration as when they formed".The New York Times.Archivedfrom the original on 29 November 2023.Retrieved30 November2023.

[BBC-20231129-10] Ghosh, Pallab (29 November 2023)."'Perfect solar system' found in search for alien life ".BBC.BBC News.Archivedfrom the original on 29 November 2023.Retrieved29 November2023.

[Apps2023-11] Apps, Kevin; Luque, Rafael (December 2023)."HD 110067 is a wide hierarchical triple system".Research Notes of the AAS.7(12): 12.arXiv:2312.04599.doi:10.3847/2515-5172/ad12d0.

[SA-20231130EdL-12] Lazaro, Enrico (30 November 2023)."Astronomers discover resonant system of six sub-neptune exoplanets around HD 110067. The bright, nearby star HD 110067 hosts six transiting sub-Neptunes that follow a chain of resonant orbits, according to new research led by University of Chicago astronomers".Science News(sci.news).Archivedfrom the original on 2 December 2023.Retrieved2 December2023.

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Observation data EpochJ2000EquinoxJ2000
Constellation	Coma Berenices
Right ascension	12^h39^m21.50369^s^[1]
Declination	+20° 01′ 40.0360″^[1]
Apparent magnitude(V)	8.43^[2]
Characteristics
Evolutionary stage	Main sequence
Spectral type	K0V^[2]
Astrometry

Radial velocity(R_v)	−8.56±0.13^[1]km/s
Proper motion(μ)	RA:-81.703mas/yr^[1] Dec.:-104.532mas/yr^[1]
Parallax(π)	31.0369 ± 0.0222mas^[1]
Distance	105.09 ± 0.08ly (32.22 ± 0.02pc)

Details^[3]

Mass	0.798±0.042`M`_☉
Radius	0.788±0.008`R`_☉
Surface gravity(logg)	4.54±0.03cgs
Temperature	5266±64K
Metallicity[Fe/H]	−0.20±0.04dex
Rotational velocity(vsini)	2.5±1.0km/s
Age	8.1±4.0Gyr

Other designations
BD+20 2748,HD110067,SAO82424,TOI-1835,TIC347332255,TYC1448-433-1^[2]
Database references
SIMBAD	data
Exoplanet Archive	data