Trappist-1
Artificiosa impressio stellae Trappist-1 cum eius planetis septem. | |
Observationis data | |
---|---|
Constellatio | Aquarius |
Ascensio recta | 23h 06m 29,283s[2] |
Declinatio | –05° 02′ 28,59″[3] |
Magnitudo apparens (v) | 18,80 |
Proprietates | |
Classis spectralis | M8V[4] M8,2V |
Index coloris V-R | 2,33 |
Index coloris R-I | 2,47 |
Astrometria | |
Velocitas radialis (Rv) | −56,3 km/s |
Parallaxis stellaris (π) | 82,58 mas |
Distantia | 39,5 ± 1,3 alm (12,1 ± 0,4 pc) |
Magnitudo absoluta | 18,4 ± 0,1 |
Singulae res | |
Massa | 0,08 ± 0,009 M☉ |
Radius | 0,114 ± 0,006 R☉ |
Luminositas (bolometrica) | 0,000525±0,000036 L☉[5] |
Luminositas (visualis, Lv) | 0,00000373 L☉ |
Gravitas superficialis (log g) | ~ 5,227[6] cgs |
Temperatura | 2550 ± 55 K |
Metallicitas | 0,04 ± 0,08 |
Rotatio | 1,40 ± 0,05 dies |
Velocitas rotationalis (v sin i) | 6 ± 2 km/s |
Aetas | > 1 Giga-annus |
Aliae designationes | |
2MASS J23062928-0502285, 2MASSI J2306292-050227, 2MASSW J2306292-050227, 2MUDC 12171 |
Trappist-1[7], etiam 2MASS J23062928-0502285[8] nuncupatum, est stella pumilio ultrafrigida 39,5 annos luce mensos (12,1 parsec) e Sole in constellatione Aquario sita.
Anno 2015, astronomi tres planetas magnitudine simili terrestri stellam pumilionem orbitantes invenerunt. Grex, a Michaële Gillon in Universitate Leodiensi in Belgicā ductus, planetas detexit viā photometriae transitūs cum Telescopio Parvo Planetis et Planetesimalibus Transeuntibus (Anglice Transiting Planets and Planetesimals Small Telescope; acronymo ex verbis Anglicis TRAPPIST) in Observatorio La Silla in Chiliā.[9][10][11] Die 22 Februarii anni 2017, astronomi quattuor novos exoplanetas circum Trappist-1 nuntiaverunt.[12] Praeter TRAPPIST, hoc opus Telescopio Maximo (Anglice Very Large Telescope; acronymo ex verbis Anglicis VLT) in Monte Paranali (Hispanice Cerro Paranal) et Telescopio Siderali Spitzeriano (Anglice Spitzer Space Telescope) a NASA, apud alia, usum est et totum planetarum numerum ad septem adduxit, e quibus saltem tres, et fortasse omnes, intra zonam habitabilem sunt.[13][14]
Inventio et nomenclatura
recensereStella medio in systemate anno 1999 Recognitione totius caeli duobus micrometris (Anglice Two Micron All-Sky Survey; acronymo ex verbis Anglicis 2MASS) inventa est.[15] Perscripta est in consequentem catalogum, "2MASS J23062928-0502285" designata. Numeri ad stellae ascensionem rectam et declinationem in caelo referunt et "J" refert ad Epocham Iulianam.
Systema postea a grege in Universitate Leodiensi investigatur, qui suas initiales observationes fecere utendo Telescopio Parvo Planetis et Planetesimalibus Transeuntibus-Australi (Anglice Transiting Planets and Planetesimals Small Telescope-South) e Septembri in Decembrem anni 2015 et sua inventa Maio anni 2016 in commentario Nature in lucem edidere.[16][17] Robotici telescopii acronymum Anglice, TRAPPIST, in bono lumine Belgicas incepti origines ponit, denotans sicuti si esset contemplativus Trappistarum ordo religiosus (astronomi suam inventionem appositione Trappensis cervesiae[18] a contemplativis effectae celebravere, quam magni aestimant).[19] Quia stella primos exoplanetas hoc telescopio inventos hospitat, inventores igitur eam "Trappist-1" designavere.
Planetae designantur ordine eorum inventionis, incipiendo litterā b primo planetae invento, c secundo et sic.[20] Tres planetae circum Trappist-1 primi inventi et b, c et d ordine crescentium periodorum orbitalium[21] designati sunt, et secundus inventorum grex simili modo designatus est litteris e usque ad h.
Die 23 Februarii anni 2017, inventio animato Doogli Googlis (Anglice Google Doogle) a Nate Swinehart creato celebrata est.[22]
Stellaris proprietates
recensereTrappist-1 stella pumilio ultrafrigida est, cum classi spectrali M8,0 ± 0,5, quod propemodum sunt 8% massae et 11% radii Solaris et, quamquam paulum maior Iove, circa 8,4 vicibus massivior est.[23][24] Temperaturam 2550 K habet et est saltem 500 annos nata (ultra hoc minimum, quod stellam iuvenem activam phasin transivisse indicat, aetas pessime limitatur propter lentissimam huius stellaris generis evolutionem).[25] In comparatione, Sol circa 4,6 milliarda annorum natus est[26] et temperaturam 5778 K habet.[27]
Propter remissam luminositatem, stella usque ad 12 trilliones annorum vivere potest.[28] Stella metallibus locuples est, cum metallicitate ([Fe/H]) 0,04 seu 109% Solaris quantitatis. Cuius luminositas 0,05% eius Solaris (0,05% L☉), maior cuius pars infrarubro spectro emittitur.
Systema planetarium
recensereMense Februario anni 2017, astronomi huius stellae systema planetarium temperatis planetis terrestribus septem componi nuntiavere, e quibus quinque (b, c, e et g) magnitudinem similem ei Terrestri habent et duo (d et h) magnitudinem mediam inter Martianam (cum diametro circa dimidio Terrestris) et Terrestrem habent.[29] Tres (e, f et g) in zonā habitabili orbitant.[30][31][32][33] Tota intestinorum planetarum sex massa circa 0,02% massae stellae Trappist-1 est, fractio similis ei Mediceorum Siderum Iovianorum, quod forsitan similem formationis historiam suggerit.[34]
Comes exoplaneta (secundum ordinem e stellā) | Massa | Semiaxis maior (ua) | Periodus orbitalis (dies) | Eccentricitas orbitalis | Inclinatio orbitalis | Radius |
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0,85±0,72 M⊕ | 0,01111 (1,66 milliones km) | 1,51087081 ± 0,00000060 | < 0,081 | 89,65 ± 0,25° | 1,086 ± 0,035 R⊕ | |
1,38±0,61 M⊕ | 0,01522 (2,28 milliones km) | 2,4218233 ± 0,0000017 | < 0,083 | 89,67 ± 0,17° | 1,056 ± 0,035 R⊕ | |
0,41±0,27 M⊕ | 0,021 ± 0,006 (3,14 milliones km) | 4,049610 ± 0,000063 | < 0,070 | 89,75 ± 0,16° | 0,772 ± 0,030 R⊕ | |
0,62±0,58 M⊕ | 0,028 (4,19 milliones km) | 6,099615 ± 0,000011 | < 0,085 | 89,86 ± 0,11° | 0,918 ± 0,039 R⊕ | |
0,68±0,18 M⊕ | 0,037 (5,54 milliones km) | 9,206690 ± 0,000015 | < 0,063 | 89,680 ± 0,034° | 1,045 ± 0,038 R⊕ | |
1,34±0,88 M⊕ | 0,045 (6,73 milliones km) | 12,35294 ± 0,00012 | < 0,061 | 89,710 ± 0,025° | 1,127 ± 0,041 R⊕ | |
Ignota (probabiliter < 1 M⊕) | 0,063 +0,027−0,013 (~9,4 milliones km) | 20 +15−6 | Ignota | 89,80 ± 0,07° | 0,755 ± 0,034 R⊕ |
Planetarum densitates e ~0,60 ad ~1,17 vices Terrestris (ρ⊕ 5,51 g/cm3) pervagantur, quod praecipue lapideas compositiones indicat. Incertitudines nimis magnae sunt ad indicandum substantialiane volatilium elementa etiam includantur, praeter casum planetae f, ubi valor (0,60±0,17 ρ⊕) strati glacialis praesentiae et/aut extensae atmosphaerae "favet".[37]
Omnes septem stellae Trappist-1 planetae multo propiores orbitant quam Mercurius Solem orbitat; excepto Trappist-1b, orbitant longiores quam Medicea Sidera faciunt circum Iovem,[38] sed propiores quam pleraeque externae aliae lunae Iovis. Distantia inter orbitas planetarum Trappist-1b et Trappist-1c solum 1,6 vices distantia inter Tellurem et Lunam est. Planetae prominenter in alterutrius caelis apparere debent, et in aliquibus casibus, apparentes aliquotiens maiores quam Luna in Tellure apparet.[39] Annus proximo in planetā solum 1,5 Terrestres dies transit, sexti planetae anno solum 12,3 dies transeunte. Septimi planetae annus multo minus certus est in 20 +15−6, quia solum unicus transitus observatus est.
Resonantia orbitalis propinqua
recenserePlanetarum b et g orbitae fere in resonantiā sunt, relativas periodos propemodum 24/24, 24/15, 24/9, 24/6, 24/4 et 24/3 respective habentes, tenentibus proximis vicinis periodorum rationes (procedentibus foras) circiter 8/5, 5/3, 3/2, 3/2 et 4/3 (1,603, 1,672, 1,506, 1,509 et 1,342). Quod longissimam notam fere resonantium exoplanetarum catenam repraesentat et putatur evenisse ex interactionibus inter planetas cum migravere penitus in residualem discum protoplanetarium postquam formati essent initialibus maioribus in spatiis.[40] Talis migratio versus interiora probabilitates substantialium quantitatum aquae his in mundis praesentis crevit. Propter tenuiter notam periodum orbitalem planetae h, nescitur an sit in resonantiā orbitali aliis cum planetis sex.
Rotatio synchrona
recensereOmnes planetae septem probabiliter rotationem synchronam habent (latus unum omnium planetarum coram stellā stat),[41] quod vitae incrementum illic "multo arduius" facit.[42] Minus probabilis possibilitas est ut aliqui in resonantiā rotatoriā orbitali capi possint. Planetae cum rotatione synchronā multo magnas temperaturae dissimilitudines inter sua sempiterne illuminata diurna latera et sua sempiterne obscura nocturna latera typice habere possunt, quod fortes ventos planetas volventes efficere possunt. Meliora loca vitae prope mites crepusculares regiones inter duo latera, lineam terminatoris nuncupatas, esse posset.
Possibiles effectūs fortium Roentgenianorum radiorum et extremae radiationis ultraviolaceae in systemate
recensereBolmont et alii effectūs praedictae ultraviolaceae longinquae (FUR) et ultraviolaceae extremae (EUV/XUV) irradiationis planetarum b et c e Trappist-1 demonstravere. Quorum resultationes duos planetas fortasse tantos quam Terrestres aquae oceanos quindecim amisisse suggerunt (quamvis vera amissio minor forsitan sit), secundum eorum aquam contenta in initio. Nihilominus, satis aquae forsitan retinuere ut habitabiles maneant et planeta a longius orbitans multo minus aquae amisisse praedictus est.[43]
Verumtamen, consequens observatorii XMM-Newton studium de Roentgenianis radiis ab Wheatley et al. factum stellam Roentgenianos radios gradū comparabili ei nostri multo maioris Solis et radiationem ultraviolaceam extremam gradū 50 vices fortiore quam eo a Bolmont et al. adsumpto emittere invenit. Auctores ut hoc significative primariam et fortasse secundariam atmosphaeras planetarum cum magnitudine simili Terrestri mutaret, quod amplificaretur zona habitabilis stellae, praedixere. Publicatio hos gradūs radiatiionis physicam hydrodynamicamque in planetariā atmosphaerā negligere et fortasse significative maioris aestimatos esse contemplavit. Extremae quidem ultraviolaceae causā amissio crassissimae ex hydrogenio helioque atmosphaerae primariae forsitan reverā habitabilitati requiri posset. Altus extremae ultraviolaceae gradus etiam exspectaretur ut fieret aquae retentio in Trappist-1d minus probabilis praedictā a Bolmont et al., quamvis in irradiatissimis planetis insidiae frigidae in polis aut in nocturnis lateribus planetarum cum rotatione synchronā manere possent.[44]
Planetariarum atmosphaerarum spectroscopia
recenserePropter relativam systematis vicinitatem et propter parvam primariarum orbitaliumque collineationum diurnos transitūs producentium magnitudines,[45] atmosphaerae planetarum circum Trappist-1 propitii scopi investigationi de transmissionis spectroscopiā sunt.[46]
Combinatum transmissionis spectrum planetarum Trappist-1b et Trappist-1c, Hubbleano telescopio spatiali obtentum, hydrogenio abundantem atmosphaeram sine nubibus ambobus excludit, inverisimile igitur ut extensum gasii tegmen teneant, nisi nubes sint magnis in altitudinibus. Aliae atmosphaericae structurae, ex atmosphaerā cum aquae vapore sine nubibus usque ad atmosphaeram similem Venereae, cum monotono spectro consistentes manent.[47]
Futurae telescopiorum, sicuti JWST aut E-ELT, observationes gasium thermocepicum in atmosphaeris contentum taxare poterunt, quod permittet meliorem superficialium condicionum aestimationem. Etiam biosignaturas sicuti ozonum aut methanum[48] in istorum planetarum atmosphaeris detegere poterunt, si vita illic adest.[49][50][51]
Radioelectrici signi quaesitus
recensereFebruario anni 2017, Seth Shostak, expertus astronomus Instituti SETI effatus est: "Institutum SETI suā Instructurā Telescopiorum Allen (Anglice Allen Telescope Array; acronymo ex verbis Anglicis ATA) anno priore [2016] usum est ad observanda circumiecta stella Trappist-1, legens per decem billionum canalium radiophonicorum signa quaerens. Nulla transmissio detecta est, quamquam novae observationes in futurum sunt..."[52]
Pinacotheca
recensere-
Trappist-1 est minor (11% magnitudinem), hebetior et rubrior stella Sole.
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Systema planetarium Trappist-1 (secundum artificiosam impressionem).[53]
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Tres planetae stellam Trappist-1 orbitantes (secundum artificiosam impressionem).
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Planetae Trappist-1c prospectus (secundum artificiosam impressionem).
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Stellae Trappist-1 lux transgredi potest transeuntes exoplanetas ad revelandas atmosphaericas compositiones viā spectroscopiae (secundum artificiosam impressionem).[54]
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Systema Trappist-1 (secundum artificiosam impressionem).
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Systema Trappist-1 collatum Systemati Solari; omnes septem planetae stellae Trappist-1 intra Mercurii orbitam capi possent.[55]
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Nitoris deminutio (astronomici transitūs) a stellā Trappist-1 per dies 20 (Septembri/Octobri, 2016; a Telescopio Siderali Spitzeriano et aliis) quia planetae septem (infra notati) stellae lucem obstant.
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Stellae Trappist-1 hebetatio propter suos notos planetas septem -quo maiores planetae sunt, eo hebetantiores; quo remotiores, eo longius (a Telescopio Siderali Spitzeriano).
Pelliculae
recensere-
Pellicula (00:44) –Iter e Tellure in Trappist-1 (secundum artificiosam impressionem).
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Pellicula (00:22) –Propinquus conspectus unius e planetis septem orbitantibus stellam Trappist-1 (secundum artificiosam impressionem).
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Pellicula (01:32) –Transitūs data (secundum artificiosam impressionem).
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Pellicula (01:10) – Volatus circum planetas e systemate Trappist-1 (secundum artificiosam impressionem).
Notae
recensere- ↑ Ephemeris. Nuntii Latini. SEPTEM PLANETAE GEMINI NOSTRAE TERRAE INVENTI SUNT, ubi dicitur "Absentes XXXIX annos luce mensos, circum stellam nominatam Trappist-1, systema volvitur (...)".
- ↑ Cutri, R. M.; Skrutskie, M. F.; Van Dyk, S.; Beichman, C. A.; Carpenter, J. M.; Chester, T.; Cambresy, L.; Evans, T.; Fowler, J.; Gizis, J.; Howard, E.; Huchra, J.; Jarrett, T.; Kopan, E. L.; Kirkpatrick, J. D.; Light, R. M.; Marsh, K. A.; McCallon, H.; Schneider, S.; Stiening, R.; Sykes, M.; Weinberg, M.; Wheaton, W. A.; Wheelock, S.; Zacarias, N. (Iunio anni 2003). "2MASS All Sky Catalog of point sources". Catalogus Datorum Interretialis. Observatorium Europaeum australe cum datis Systemate Datorum Astrophysicorum a SAO/NASA praebitis. 2246. Codex bibliographicus:2003yCat.2246....0C.
- ↑ Cutri, R. M.; Skrutskie, M. F.; Van Dyk, S.; Beichman, C. A.; Carpenter, J. M.; Chester, T.; Cambresy, L.; Evans, T.; Fowler, J.; Gizis, J.; Howard, E.; Huchra, J.; Jarrett, T.; Kopan, E. L.; Kirkpatrick, J. D.; Light, R. M.; Marsh, K. A.; McCallon, H.; Schneider, S.; Stiening, R.; Sykes, M.; Weinberg, M.; Wheaton, W. A.; Wheelock, S.; Zacarias, N. (Iunio anni 2003). "2MASS All Sky Catalog of point sources". Catalogus Datorum Interretialis. Observatorium Europaeum australe cum datis Systemate Datorum Astrophysicorum a SAO/NASA praebitis. 2246. Codex bibliographicus:2003yCat.2246....0C.
- ↑ Costa, E.; Mendez, R.A.; Jao, W.-C.; Henry, T.J.; Subasavage, J.P.; Ianna, P.A. (die 4 Augusti anni 2006). "The Solar Neighborhood. XVI. Parallaxes from CTIOPI: Final Results from the 1.5 m Telescope Program". The Astronomical Journal. Societas Astronomica Americana. 132 (3): 1234. Codex bibliographicus:2006AJ....132.1234C. Identificatrum rei digitale: 10.1086/505706.
- ↑ Gillon, M.; Jehin, E.; Lederer, S. M.; Delrez, L.; De Wit, J.; Burdanov, A.; Van Grootel, V.; Burgasser, A. J.; Triaud, A. H. M. J.; Opitom, C.; Demory, B.-O.; Sahu, D. K.; Bardalez Gagliuffi, D.; Magain, P.; Queloz, D. (2016). "Temperate Earth-sized planets transiting a nearby ultracool dwarf star" (PDF). Nature. 533 (7602): 221–224. Codex bibliographicus: 2016Natur.533..221G. Identificatrum rei digitale: 10.1038/nature17448.
- ↑ Viti, Serena; Jones, Hugh R. A. (Novembri mense anni 1999). "Gravity dependence at the bottom of the main sequence". Astronomy and Astrophysics. 351: 1028–1035. Codex bibliographicus: 1999A&A...351.1028V. Recuperatum die 6 Maii anni 2016.
- ↑ Ephemeris. Nuntii Latini. SEPTEM PLANETAE GEMINI NOSTRAE TERRAE INVENTI SUNT, ubi dicitur "Absentes XXXIX annos luce mensos, circum stellam nominatam Trappist-1, systema volvitur (...)".
- ↑ SIMBAD
- ↑ "Could these newly-discovered planets orbiting an ultracool dwarf host life?". The Guardian. Die 2 Maii anni 2016.
- ↑ [https://www.eso.org/public/unitedkingdom/news/eso1615/?lang "Three Potentially Habitable Worlds Found Around Nearby Ultracool Dwarf Star – Currently the best place to search for life beyond the Solar System". Observatorium Europaeum australe.
- ↑ "Three New Planets Are the Best Bets for Life". Popular Mechanics. Die 2 Maii anni 2016. Recuperatum die 2 Maii anni 2016.
- ↑ TRAPPIST-1 System – Discovery of Earth-Like Planets – Check123, Video Encyclopedia, recuperatum die 2017-02-23.
- ↑ "Temperate Earth-Sized Planets Found in Extraordinarily Rich Planetary System TRAPPIST-1". SpaceRef. Die 22 Februarii anni 2017. Recuperatum die 11 Februarii anni 2017.[nexus deficit]
- ↑ "NASA telescope reveals largest batch of Earth-size, habitable-zone planets around single star". Exoplanet Exploration: Planets Beyond our Solar System. NASA. Recuperatum die 22 Februarii anni 2017.
- ↑ Bryant, Tracey (die 22 Februarii anni 2017). "Celestial Connection". Universitas Delavariensis.
- ↑ "Could these newly-discovered planets orbiting an ultracool dwarf host life?". The Guardian. Die 2 Maii anni 2016.
- ↑ Gillon, M.; Jehin, E.; Lederer, S. M.; Delrez, L.; De Wit, J.; Burdanov, A.; Van Grootel, V.; Burgasser, A. J.; Triaud, A. H. M. J.; Opitom, C.; Demory, B.-O.; Sahu, D. K.; Bardalez Gagliuffi, D.; Magain, P.; Queloz, D. (2016). "Temperate Earth-sized planets transiting a nearby ultracool dwarf star" (PDF). Nature. 533 (7602): 221–224. Codex bibliographicus: 2016Natur.533..221G. Identificatrum rei digitale: 10.1038/nature17448.
- ↑ Gramer, Robbie (die 22 Februarii anni 2017). [oreignpolicy.com/2017/02/22/new-terrestrial-planets-discovered-by-international-scientists-international-collaboration-maybe-theres-some-aliens/ "News So Foreign It's Out of This World: Scientists Discover Seven New Potentially Habitable Planets"]. Foreign Policy.
- ↑ "New National Telescope at La Silla—TRAPPIST to Scout the Sky and Uncover Exoplanets and Comets (eso1023 — Organisation Release)". www.eso.org. ESO. Die 8 Iunii anni 2010. Recuperatum die 4 Ianuarii anni 2015.
- ↑ Hessman, F. V.; Dhillon, V. S.; Winget, D. E.; Schreiber, M. R.; Horne, K.; Marsh, T. R.; Guenther, E.; Schwope, A.; Heber, U. (2010). "On the naming convention used for multiple star systems and extrasolar planets". arXiv: 1012.0707 astro-ph.SR.
- ↑ Gillon, M.; Jehin, E.; Lederer, S. M.; Delrez, L.; De Wit, J.; Burdanov, A.; Van Grootel, V.; Burgasser, A. J.; Triaud, A. H. M. J.; Opitom, C.; Demory, B.-O.; Sahu, D. K.; Bardalez Gagliuffi, D.; Magain, P.; Queloz, D. (2016). "Temperate Earth-sized planets transiting a nearby ultracool dwarf star" (PDF). Nature. 533 (7602): 221–224. Codex bibliographicus: 2016Natur.533..221G. Identificatrum rei digitale: 10.1038/nature17448.
- ↑ Radowitz, John von (die 23 Februarii anni 2017). "Exoplanet discovery celebrated with Google Doodle after three planets found". mirror. Recuperatum die 23 Februarii anni 2017.
- ↑ Koberlein, Brian (die 22 Februarii anni 2017). "Here's How Astronomers Found Seven Earth-Sized Planets Around A Dwarf Star". Forbes. Recuperatum die 26 Februarii anni 2017.
- ↑ Gillon, M.; Jehin, E.; Lederer, S. M.; Delrez, L.; De Wit, J.; Burdanov, A.; Van Grootel, V.; Burgasser, A. J.; Triaud, A. H. M. J.; Opitom, C.; Demory, B.-O.; Sahu, D. K.; Bardalez Gagliuffi, D.; Magain, P.; Queloz, D. (2016). "Temperate Earth-sized planets transiting a nearby ultracool dwarf star" (PDF). Nature. 533 (7602): 221–224. Codex bibliographicus: 2016Natur.533..221G. Identificatrum rei digitale: 10.1038/nature17448.
- ↑ Gillon, M.; Jehin, E.; Lederer, S. M.; Delrez, L.; De Wit, J.; Burdanov, A.; Van Grootel, V.; Burgasser, A. J.; Triaud, A. H. M. J.; Opitom, C.; Demory, B.-O.; Sahu, D. K.; Bardalez Gagliuffi, D.; Magain, P.; Queloz, D. (2016). "Temperate Earth-sized planets transiting a nearby ultracool dwarf star" (PDF). Nature. 533 (7602): 221–224. Codex bibliographicus: 2016Natur.533..221G. Identificatrum rei digitale: 10.1038/nature17448.
- ↑ Williams, Matt (die 24 Septembris anni 2016). "What is the Life Cycle Of The Sun?". Universe Today. Recuperatum die 19 Februarii anni 2011.
- ↑ Cain, Fraser (die 23 Decembris anni 2015). "Temperature of the Sun". Universe Today. Recuperatum die 19 Februarii anni 2011.
- ↑ Adams, Fred C.; Laughlin, Gregory; Graves, Genevieve J. M. "Red Dwarfs and the End of the Main Sequence". Gravitational Collapse: From Massive Stars to Planets. Revista Mexicana de Astronomía y Astrofísica. pp. 46–49. Codex bibliographicus: 2004RMxAC..22...46A.
- ↑ Gillon, M.; Jehin, E.; Lederer, S. M.; Delrez, L.; De Wit, J.; Burdanov, A.; Van Grootel, V.; Burgasser, A. J.; Triaud, A. H. M. J.; Opitom, C.; Demory, B.-O.; Sahu, D. K.; Bardalez Gagliuffi, D.; Magain, P.; Queloz, D. (2016). "Temperate Earth-sized planets transiting a nearby ultracool dwarf star" (PDF). Nature. 533 (7602): 221–224. Codex bibliographicus: 2016Natur.533..221G. Identificatrum rei digitale: 10.1038/nature17448.
- ↑ Gillon, M.; Jehin, E.; Lederer, S. M.; Delrez, L.; De Wit, J.; Burdanov, A.; Van Grootel, V.; Burgasser, A. J.; Triaud, A. H. M. J.; Opitom, C.; Demory, B.-O.; Sahu, D. K.; Bardalez Gagliuffi, D.; Magain, P.; Queloz, D. (2016). "Temperate Earth-sized planets transiting a nearby ultracool dwarf star" (PDF). Nature. 533 (7602): 221–224. Codex bibliographicus: 2016Natur.533..221G. Identificatrum rei digitale: 10.1038/nature17448.
- ↑ "NASA Telescope Reveals Largest Batch of Earth-Size, Habitable-Zone Planets Around Single Star" (Nuntium preli). NASA.
- ↑ "TRAPPIST-1 Planet Lineup". jpl.nasa.gov.
- ↑ Wall, Mike (die 22 Februari anni 2017). "Major Discovery! 7 Earth-Size Alien Planets Circle Nearby Star". Space.com.
- ↑ Gillon, M.; Jehin, E.; Lederer, S. M.; Delrez, L.; De Wit, J.; Burdanov, A.; Van Grootel, V.; Burgasser, A. J.; Triaud, A. H. M. J.; Opitom, C.; Demory, B.-O.; Sahu, D. K.; Bardalez Gagliuffi, D.; Magain, P.; Queloz, D. (2016). "Temperate Earth-sized planets transiting a nearby ultracool dwarf star" (PDF). Nature. 533 (7602): 221–224. Codex bibliographicus: 2016Natur.533..221G. Identificatrum rei digitale: 10.1038/nature17448.
- ↑ Gillon, M.; Jehin, E.; Lederer, S. M.; Delrez, L.; De Wit, J.; Burdanov, A.; Van Grootel, V.; Burgasser, A. J.; Triaud, A. H. M. J.; Opitom, C.; Demory, B.-O.; Sahu, D. K.; Bardalez Gagliuffi, D.; Magain, P.; Queloz, D. (2016). "Temperate Earth-sized planets transiting a nearby ultracool dwarf star" (PDF). Nature. 533 (7602): 221–224. Codex bibliographicus: 2016Natur.533..221G. Identificatrum rei digitale: 10.1038/nature17448.
- ↑ Gillon, M.; Triaud, A. H. M. J.; Demory, B.-O.; Jehin, E.; Agol, E.; Deck, K. M.; Lederer, S. M.; De Wit, J.; Burdanov, A.; Ingalls, J. G.; Bolmont, E.; Leconte, J.; Raymond, S. N.; Selsis, F.; Turbet, M.; Barkaoui, K.; Burgasser, A.; Burleigh, M. R.; Carey, S. J.; Chaushev, A.; Copperwheat, C. M.; Delrez, L.; Fernandes, C. S.; Holdsworth, D. L.; Kotze, E. J.; Van Grootel, V.; Almleaky, Y.; Benkhaldoun, Z.; Magain, P.; Queloz, D. (2017). "Seven temperate terrestrial planets around the nearby ultracool dwarf star TRAPPIST-1" (PDF). Nature. 542 (7642): 456. Identificatrum rei digitale: 10.1038/nature21360.
- ↑ Gillon, M.; Triaud, A. H. M. J.; Demory, B.-O.; Jehin, E.; Agol, E.; Deck, K. M.; Lederer, S. M.; De Wit, J.; Burdanov, A.; Ingalls, J. G.; Bolmont, E.; Leconte, J.; Raymond, S. N.; Selsis, F.; Turbet, M.; Barkaoui, K.; Burgasser, A.; Burleigh, M. R.; Carey, S. J.; Chaushev, A.; Copperwheat, C. M.; Delrez, L.; Fernandes, C. S.; Holdsworth, D. L.; Kotze, E. J.; Van Grootel, V.; Almleaky, Y.; Benkhaldoun, Z.; Magain, P.; Queloz, D. (2017). "Seven temperate terrestrial planets around the nearby ultracool dwarf star TRAPPIST-1" (PDF). Nature. 542 (7642): 456. Identificatrum rei digitale: 10.1038/nature21360.
- ↑ Redd, Nola Taylor (die 24 Februarii anni 2017). "TRAPPIST-1: System with 7 Earth-Size Exoplanets". Space.com.
- ↑ Wall, Mike (die 22 Februari anni 2017). "Major Discovery! 7 Earth-Size Alien Planets Circle Nearby Star". Space.com.
- ↑ Gillon, M.; Triaud, A. H. M. J.; Demory, B.-O.; Jehin, E.; Agol, E.; Deck, K. M.; Lederer, S. M.; De Wit, J.; Burdanov, A.; Ingalls, J. G.; Bolmont, E.; Leconte, J.; Raymond, S. N.; Selsis, F.; Turbet, M.; Barkaoui, K.; Burgasser, A.; Burleigh, M. R.; Carey, S. J.; Chaushev, A.; Copperwheat, C. M.; Delrez, L.; Fernandes, C. S.; Holdsworth, D. L.; Kotze, E. J.; Van Grootel, V.; Almleaky, Y.; Benkhaldoun, Z.; Magain, P.; Queloz, D. (2017). "Seven temperate terrestrial planets around the nearby ultracool dwarf star TRAPPIST-1" (PDF). Nature. 542 (7642): 456. Identificatrum rei digitale: 10.1038/nature21360.
- ↑ Gillon, M.; Triaud, A. H. M. J.; Demory, B.-O.; Jehin, E.; Agol, E.; Deck, K. M.; Lederer, S. M.; De Wit, J.; Burdanov, A.; Ingalls, J. G.; Bolmont, E.; Leconte, J.; Raymond, S. N.; Selsis, F.; Turbet, M.; Barkaoui, K.; Burgasser, A.; Burleigh, M. R.; Carey, S. J.; Chaushev, A.; Copperwheat, C. M.; Delrez, L.; Fernandes, C. S.; Holdsworth, D. L.; Kotze, E. J.; Van Grootel, V.; Almleaky, Y.; Benkhaldoun, Z.; Magain, P.; Queloz, D. (2017). "Seven temperate terrestrial planets around the nearby ultracool dwarf star TRAPPIST-1" (PDF). Nature. 542 (7642): 456. Identificatrum rei digitale: 10.1038/nature21360.
- ↑ Witze, A. (die 22 Februarii anni 2017). "These seven alien worlds could help explain how planets form". Nature. Identificatrum rei digitale: 10.1038/nature.2017.21512.
- ↑ Bolmont, E.; Selsis, F.; Owen, J. E.; Ribas, I.; Raymond, S. N.; Leconte, J.; Gillon, M. (2017). "Water loss from terrestrial planets orbiting ultracool dwarfs: implications for the planets of TRAPPIST-1". Monthly Notices of the Royal Astronomical Society. 464 (3): 3728–3741. Codex bibliographicus: 2017MNRAS.464.3728B. Identificatrum rei digitale: 10.1093/mnras/stw2578.
- ↑ Wheatley, Peter J.; Louden, Tom; Bourrier, Vincent; Ehrenreich, David; Gillon, Michaël (die 8 Octobris anni 2016) [die 14 Decembris anni 2016]. "Strong XUV irradiation of the Earth-sized exoplanets orbiting the ultracool dwarf TRAPPIST-1". Monthly Notices of the Royal Astronomical Society: Letters. 465: L74. arXiv: 1605.01564Freely accessible. Codex bibliographicus: [http://adsabs.harvard.edu/abs/2017MNRAS.465L..74W 2017MNRAS.465L..74W. Identificatrum rei digitale: 10.1093/mnrasl/slw192.
- ↑ Kaplan, Sarah (2017-02-22). "Here's what you should know about the newfound TRAPPIST-1 solar system". The Washington Post.
- ↑ Gleiser, M. (die 23 Februarii anni 2017). "Trappist-1 Planet Discovery Ignites Enthusiasm In Search For Alien Life". NPR. Recuperatum die 25 Februarii anni 2017.
- ↑ de Wit, Julien; Wakeford, Hannah R.; Gillon, Michaël; Lewis, Nikole K.; Valenti, Jeff A.; Demory, Brice-Olivier; Burgasser, Adam J.; Burdanov, Artem; Delrez, Laetitia; Jehin, Emmanuël; Lederer, Susan M.; Queloz, Didier; Triaud, Amaury H. M. J.; Van Grootel, Valérie (Kalendis Septembribus anni 2016). "A combined transmission spectrum of the Earth-sized exoplanets TRAPPIST-1 b and c". Nature. 537 (7618): 69–72. arXiv: 1606.01103. Codex bibliographicus: 2016Natur.537...69D. identificatrum rei digitalis: 10.1038/nature18641. PMID 27437572.
- ↑ Swain, M. (2008). "Probing the Atmospheres of Exoplanets" (PDF). Hubble 2008: Science Year in Review. NASA. Recuperatum die 25 Februarii anni 2017.
- ↑ Chang, Kenneth (22 February 2017). "7 Earth-Size Planets Identified in Orbit Around a Dwarf Star". New York Times. Recuperatum die 22 Februarii anni 2017.
- ↑ Osgood, M. (die 22 Februarii anni 2017). "Sagan Institute director explains what life could be like near Trappist-1". Universitas Cornelliana. Recuperatum die 25 Februarii anni 2017.
- ↑ Barstow, J. K.; Irwin, P. G. J. (die 26 Maii anni 2016). "Habitable worlds with JWST: transit spectroscopy of the TRAPPIST-1 system?". Monthly Notices of the Royal Astronomical Society: Letters. 461 (1): L92–L96. arXiv: 1605.07352v2. Identificatrum rei digitalis: 10.1093/mnrasl/slw109.
- ↑ Shostak, Seth (die 22 Februarii anni 2017). "This Weird Planetary System Seems Like Something From Science Fiction". NBC News. Recuperatum Kalendis Martiis anni 2017.
- ↑ Ultracool Dwarf and the Seven Planets – Temperate Earth-sized Worlds Found in Extraordinarily Rich Planetary System. . www.eso.org
- ↑ Artist's view of planets transiting red dwarf star in TRAPPIST-1 system. . www.spacetelescope.org
- ↑ Shostak, Seth (die 22 Februarii anni 2017). "This Weird Planetary System Seems Like Something From Science Fiction". NBC News. Recuperatum Kalendis Martiis anni 2017.
Bibliographia
recensere- Amy C. Barr, Vera Dobos, László L. Kiss (2018). "Interior Structures and Tidal Heating in the TRAPPIST-1 Planets".arXiv pro Astronomy and Astrophysics
- Kenneth Chang (22 Februarii 2017). "7 Earth-Size Planets Identified in Orbit Around a Dwarf Star". New York Times.
- Chuanfei Dong et al. (9 Decembris 2017). "Atmospheric escape from the TRAPPIST-1 planets and implications for habitability". arXiv.
- Michaël Gillon et al. (23 Februarii 2017). "Seven temperate terrestrial planets around the nearby ultracool dwarf star TRAPPIST-1". Nature vol. 542 pp. 456–460 Epitome
- Simon L. Grimm et al. (31 Ianuarii 2018). "The nature of the TRAPPIST-1 exoplanets". Astronomy & Astrophysics.
- Hamish Hay, Isamu Matsuyama (11 Martii 2019). "Tides between the TRAPPIST-1 planets". ArXiv.org pro Astrophysical Journal
- Thomas Levenson (2 Maii 2016). "Astronomers Have Found Planets in the Habitable Zone of a Nearby Star". The Atlantic
- Rodrigo Luger, Marko Sestovic, Didier Queloz (2017). "A seven-planet resonant chain in TRAPPIST-1". Nature Astronomy vol. 1 no. 129 Epitome
- Jacob Lustig-Yaeger, Victoria S. Meadows, Andrew P. Lincowski, "The Detectability and Characterization of the TRAPPIST-1 Exoplanet Atmospheres with JWST" apud arXiv.org pro Astronomical Journal vol. 158 (2019) p. 27 ff. alia recensio
- Jack T. O’Malley-James, L. Kaltenegger (2019). "Lessons from early Earth: UV surface radiation should not limit the habitability of active M star systems" in Monthly Notices of the Royal Astronomical Society vol. 485 pp. 5598–5603
- Chris Ormel, Beibei Liu, Djoeke Schoonenberg (2017). "Formation of TRAPPIST-1 and other compact systems". arXiv pro Astronomy and Astrophysics
- Cayman T. Unterborn, Steven J. Desch, Natalie R. Hinkel, Alejandro Lorenzo Jr (2018). "Inward Migration of the TRAPPIST-1 Planets as Inferred From Their Water-Rich Compositions". arXiv pro Nature Astronomy
- Alan Yuhas (23 Ianuarii 2018). "Two planets in unusual star system are very likely habitable, scientists say". The Guardian.
Nexus externi
recensereData astronomica: "TRAPPIST-1" apud SIMBAD. |
- "Largest batch of Earth-size, habitable zone planets" (22 Februarii 2017) apud NASA
- Peter Kelley, "Kepler telescope spies details of TRAPPIST-1 system's outermost planet" (22 Maii 2017) apud Phys.org
- Ordinis NASA nuntium de stellae Trappit-1 planetis septem inventis (Anglice)
- Ordo NASA planetas septem stellam Trappist-1 orbitantes invenit (Anglice)
- TRAPPIST-1 Inventorii gregis officialis situs interretialis] (Anglice)
- Scientifice accurata mythistoria graphica de huius inventionis pondere (Anglice)
- ESOcast 83: Stella pumilio ultrafrigida cum planetis: pellicula (Anglice)
- Elizabeth Landau, "TRAPPIST-1 is older than our solar system" (14 Augusti 2017) apud Phys.org
- "Hubble delivers first hints of possible water content of TRAPPIST-1 planets" (31 Augusti 2017) apud Phys.org