KPNO-Tau 12

KPNO-Tau 12 was identified in 2003 in data from a survey of the Taurus Molecular Clouds taken with a telescope at the Kitt Peak National Observatory (KPNO) and 2MASS. The object was observed with the MMT Observatory/Blue Channel spectrometer and with Keck/LRIS. KPNO-Tau 12 showed a spectral type of M9 and also showed strong Hydrogen-alpha emission. At the time its mass was estimated to be around 0.02 {{Solar mass|link=true}} (or 21 {{Jupiter mass|link=true}}), which would make it a brown dwarf. Since then several works found that it likely has a mass near or below the deuterium-burning limit, which makes this object a low-mass brown dwarf or planetary-mass object (e.g. 14.6 {{Jupiter mass}}, 13.6 {{Jupiter mass}}, 6-7 {{Jupiter mass}}, 16.5 {{Jupiter mass}}, {{Val|17.8|6.7|4.6}} {{Jupiter mass}}, {{Val|12.7|1.6|1.8}} {{Jupiter mass}}).

A few other free-floating planetary-mass objects are known in the Taurus Clouds. These include three other objects with possible disks around them.

Observations with Keck/LRIS showed several absorption features. These are titanium oxide, calcium hydride, vanadium oxide, sodium and potassium. A spectrum with Keck/NIRSPEC was interpreted to be consistent with very low gravity. This is typical for young sources. Several re-classifications of the spectral type were made over the years. In 2013 it was re-classified as a M9.25{{±|0.5}}. In 2018 it was re-classified as a L0.7{{±|1.1}}, which could make this object an early L-dwarf. A spectrum observed with VLT/SINFONI was published in 2022, estimating a spectral type of M9.8.

KPNO-Tau 12 showed strongest H-alpha emission in both the MMT and Keck optical spectra. It also showed helium (He I) and calcium (Ca II IR triplet) emission in the Keck spectrum, which are usually seen in stars that undergo intense accretion of material from a surrounding protoplanetary disk. Additionally a Keck infrared spectrum shows a prominent emission line (see figure 10 of their work), which is described as Paschen β at 1.28 μm in the appendix of the paper. Paschen lines can be used as additional accretion indicators. In 2010 two works used observations with the Spitzer Space Telescope. These two works first identified infrared excess around KPNO-Tau 12 and classified it as a class II disk. A class II disk is composed of both a gaseous and a dusty part and belongs to the protoplanetary disks. Observation with the Spitzer Infrared Spectrograph showed that the silicate emission feature is likely missing. The dust mass of the disk was estimated to be {{Earth mass|1.223|link=true}} or {{Earth mass|0.6–1.1}}, depending on the work. The total (gas+dust) mass was estimated to be {{Jupiter mass|0.66}} or {{Jupiter mass|0.095}}, depending on the work. The dust temperature was estimated to be {{val|7.0|13.8}} Kelvin and the dust grains are smaller than 27.5 millimeters.

• 2MASS J04442713+2512164 is another brown dwarf with a disk in Taurus

Other free-floating planetary-mass objects with disks:

• 2MASS J11151597+1937266, closest free-floating planetary-mass object surrounded by a disk
• Cha 110913−773444
• OTS 44, has a well-studied disk
• J1407b, could also orbit a star

Other planetary-mass objects with disks that bound to a star:

• SR 12c
• Delorme 1 (AB)b
• 2M1207b
• PDS 70c, first circumplanetary disk

{{reflist |refs=

{{Cite journal |last1=Luhman |first1=K. L. |last2=Briceño |first2=César |last3=Stauffer |first3=John R. |last4=Hartmann |first4=Lee |last5=Barrado y Navascués |first5=D. |last6=Caldwell |first6=Nelson |date=July 2003 |title=New Low-Mass Members of the Taurus Star-forming Region |url=https://ui.adsabs.harvard.edu/abs/2003ApJ...590..348L/abstract |journal=The Astrophysical Journal |language=en |volume=590 |issue=1 |pages=348–356 |arxiv=astro-ph/0304414 |bibcode=2003ApJ...590..348L |doi=10.1086/374983 |issn=0004-637X}}

{{Cite journal |last1=Kraus |first1=Adam L. |last2=White |first2=Russel J. |last3=Hillenbrand |first3=Lynne A. |date=September 2006 |title=Multiplicity and Optical Excess across the Substellar Boundary in Taurus |url=https://ui.adsabs.harvard.edu/abs/2006ApJ...649..306K/abstract |journal=The Astrophysical Journal |language=en |volume=649 |issue=1 |pages=306–318 |arxiv=astro-ph/0602449 |bibcode=2006ApJ...649..306K |doi=10.1086/503665 |issn=0004-637X}}

{{Cite journal |last1=Kirk |first1=Helen |last2=Myers |first2=Philip C. |date=February 2011 |title=Young Stellar Groups and Their Most Massive Stars |url=https://ui.adsabs.harvard.edu/abs/2011ApJ...727...64K/abstract |journal=The Astrophysical Journal |language=en |volume=727 |issue=2 |pages=64 |arxiv=1011.1416 |bibcode=2011ApJ...727...64K |doi=10.1088/0004-637X/727/2/64 |issn=0004-637X}}

{{Cite journal |last1=Canty |first1=J. I. |last2=Lucas |first2=P. W. |last3=Roche |first3=P. F. |last4=Pinfield |first4=D. J. |date=November 2013 |title=Towards precise ages and masses of Free Floating Planetary Mass Brown Dwarfs |journal=Monthly Notices of the Royal Astronomical Society |language=en |volume=435 |issue=3 |pages=2650–2664 |arxiv=1308.1296 |bibcode=2013MNRAS.435.2650C |doi=10.1093/mnras/stt1477 |doi-access=free |issn=0035-8711}}

{{Cite journal |last1=Pascucci |first1=I. |last2=Testi |first2=L. |last3=Herczeg |first3=G. J. |last4=Long |first4=F. |last5=Manara |first5=C. F. |last6=Hendler |first6=N. |last7=Mulders |first7=G. D. |last8=Krijt |first8=S. |last9=Ciesla |first9=F. |last10=Henning |first10=Th |last11=Mohanty |first11=S. |last12=Drabek-Maunder |first12=E. |last13=Apai |first13=D. |last14=Szűcs |first14=L. |last15=Sacco |first15=G. |date=November 2016 |title=A Steeper than Linear Disk Mass-Stellar Mass Scaling Relation |journal=The Astrophysical Journal |language=en |volume=831 |issue=2 |pages=125 |arxiv=1608.03621 |bibcode=2016ApJ...831..125P |doi=10.3847/0004-637X/831/2/125 |doi-access=free |issn=0004-637X}}

{{Cite journal |last1=Akeson |first1=Rachel L. |last2=Jensen |first2=Eric L. N. |last3=Carpenter |first3=John |last4=Ricci |first4=Luca |last5=Laos |first5=Emily |last6=Nogueira |first6=Natasha F. |last7=Suen-Lewis |first7=Emma M. |date=February 2019 |title=Resolved Young Binary Systems and Their Disks |journal=The Astrophysical Journal |language=en |volume=872 |issue=2 |pages=158 |arxiv=1901.05029 |bibcode=2019ApJ...872..158A |doi=10.3847/1538-4357/aaff6a |doi-access=free |issn=0004-637X}}

{{Cite journal |last1=Bryan |first1=Marta L. |last2=Ginzburg |first2=Sivan |last3=Chiang |first3=Eugene |last4=Morley |first4=Caroline |last5=Bowler |first5=Brendan P. |last6=Xuan |first6=Jerry W. |last7=Knutson |first7=Heather A. |date=December 2020 |title=As the Worlds Turn: Constraining Spin Evolution in the Planetary-mass Regime |journal=The Astrophysical Journal |language=en |volume=905 |issue=1 |pages=37 |arxiv=2010.07315 |bibcode=2020ApJ...905...37B |doi=10.3847/1538-4357/abc0ef |doi-access=free |issn=0004-637X}}

{{Cite journal |last1=Martin |first1=Emily C. |last2=Mace |first2=Gregory N. |last3=McLean |first3=Ian S. |last4=Logsdon |first4=Sarah E. |last5=Rice |first5=Emily L. |last6=Kirkpatrick |first6=J. Davy |last7=Burgasser |first7=Adam J. |last8=McGovern |first8=Mark R. |last9=Prato |first9=Lisa |date=March 2017 |title=Surface Gravities for 228 M, L, and T Dwarfs in the NIRSPEC Brown Dwarf Spectroscopic Survey |journal=The Astrophysical Journal |language=en |volume=838 |issue=1 |pages=73 |arxiv=1703.03811 |bibcode=2017ApJ...838...73M |doi=10.3847/1538-4357/aa6338 |doi-access=free |issn=0004-637X}}

{{Cite journal |last1=Zhang |first1=Zhoujian |last2=Liu |first2=Michael C. |last3=Best |first3=William M. J. |last4=Magnier |first4=Eugene A. |last5=Aller |first5=Kimberly M. |last6=Chambers |first6=K. C. |last7=Draper |first7=P. W. |last8=Flewelling |first8=H. |last9=Hodapp |first9=K. W. |last10=Kaiser |first10=N. |last11=Kudritzki |first11=R.-P. |last12=Metcalfe |first12=N. |last13=Wainscoat |first13=R. J. |last14=Waters |first14=C. |date=May 2018 |title=The Pan-STARRS1 Proper-motion Survey for Young Brown Dwarfs in Nearby Star-forming Regions. I. Taurus Discoveries and a Reddening-free Classification Method for Ultracool Dwarfs |journal=The Astrophysical Journal |language=en |volume=858 |issue=1 |pages=41 |arxiv=1804.01533 |bibcode=2018ApJ...858...41Z |doi=10.3847/1538-4357/aab269 |doi-access=free |issn=0004-637X}}

{{Cite journal |last1=Almendros-Abad |first1=V. |last2=Mužić |first2=K. |last3=Moitinho |first3=A. |last4=Krone-Martins |first4=A. |last5=Kubiak |first5=K. |date=2022-01-01 |title=Youth analysis of near-infrared spectra of young low-mass stars and brown dwarfs |url=https://www.aanda.org/articles/aa/full_html/2022/01/aa42050-21/aa42050-21.html |journal=Astronomy & Astrophysics |language=en |volume=657 |pages=A129 |arxiv=2110.06368 |bibcode=2022A&A...657A.129A |doi=10.1051/0004-6361/202142050 |issn=0004-6361}}

{{Cite journal |last1=Luhman |first1=K. L. |last2=Allen |first2=P. R. |last3=Espaillat |first3=C. |last4=Hartmann |first4=L. |last5=Calvet |first5=N. |date=January 2010 |title=The Disk Population of the Taurus Star-Forming Region |url=https://ui.adsabs.harvard.edu/abs/2010ApJS..186..111L/abstract |journal=The Astrophysical Journal Supplement Series |language=en |volume=186 |issue=1 |pages=111–174 |arxiv=0911.5457 |bibcode=2010ApJS..186..111L |doi=10.1088/0067-0049/186/1/111 |issn=0067-0049}}

{{Cite journal |last1=Rebull |first1=L. M. |last2=Padgett |first2=D. L. |last3=McCabe |first3=C.-E. |last4=Hillenbrand |first4=L. A. |last5=Stapelfeldt |first5=K. R. |last6=Noriega-Crespo |first6=A. |last7=Carey |first7=S. J. |last8=Brooke |first8=T. |last9=Huard |first9=T. |last10=Terebey |first10=S. |last11=Audard |first11=M. |last12=Monin |first12=J.-L. |last13=Fukagawa |first13=M. |last14=Güdel |first14=M. |last15=Knapp |first15=G. R. |date=February 2010 |title=The Taurus Spitzer Survey: New Candidate Taurus Members Selected Using Sensitive Mid-Infrared Photometry |url=https://ui.adsabs.harvard.edu/abs/2010ApJS..186..259R/abstract |journal=The Astrophysical Journal Supplement Series |language=en |volume=186 |issue=2 |pages=259–307 |arxiv=0911.3176 |bibcode=2010ApJS..186..259R |doi=10.1088/0067-0049/186/2/259 |issn=0067-0049}}

{{Cite journal |last1=Furlan |first1=E. |last2=Luhman |first2=K. L. |last3=Espaillat |first3=C. |last4=D'Alessio |first4=P. |last5=Adame |first5=L. |last6=Manoj |first6=P. |last7=Kim |first7=K. H. |last8=Watson |first8=Dan M. |last9=Forrest |first9=W. J. |last10=McClure |first10=M. K. |last11=Calvet |first11=N. |last12=Sargent |first12=B. A. |last13=Green |first13=J. D. |last14=Fischer |first14=W. J. |date=July 2011 |title=The Spitzer Infrared Spectrograph Survey of T Tauri Stars in Taurus |url=https://ui.adsabs.harvard.edu/abs/2011ApJS..195....3F/abstract |journal=The Astrophysical Journal Supplement Series |language=en |volume=195 |issue=1 |pages=3 |bibcode=2011ApJS..195....3F |doi=10.1088/0067-0049/195/1/3 |issn=0067-0049}}

{{Cite journal |last1=Ballering |first1=Nicholas P. |last2=Eisner |first2=Josh A. |date=April 2019 |title=Protoplanetary Disk Masses from Radiative Transfer Modeling: A Case Study in Taurus |journal=The Astronomical Journal |language=en |volume=157 |issue=4 |pages=144 |arxiv=1903.08283 |bibcode=2019AJ....157..144B |doi=10.3847/1538-3881/ab0a56 |doi-access=free |issn=0004-6256}}

{{Cite journal |last1=Rilinger |first1=Anneliese M. |last2=Espaillat |first2=Catherine C. |date=November 2021 |title=Disk Masses and Dust Evolution of Protoplanetary Disks around Brown Dwarfs |journal=The Astrophysical Journal |language=en |volume=921 |issue=2 |pages=182 |arxiv=2106.05247 |bibcode=2021ApJ...921..182R |doi=10.3847/1538-4357/ac09e5 |doi-access=free |issn=0004-637X}}

{{Cite journal |last1=Quanz |first1=Sascha P. |last2=Goldman |first2=Bertrand |last3=Henning |first3=Thomas |last4=Brandner |first4=Wolfgang |last5=Burrows |first5=Adam |last6=Hofstetter |first6=Lorne W. |date=January 2010 |title=Search for Very Low-Mass Brown Dwarfs and Free-Floating Planetary-Mass Objects in Taurus |url=https://ui.adsabs.harvard.edu/abs/2010ApJ...708..770Q/abstract |journal=The Astrophysical Journal |language=en |volume=708 |issue=1 |pages=770–784 |arxiv=0911.1925 |bibcode=2010ApJ...708..770Q |doi=10.1088/0004-637X/708/1/770 |issn=0004-637X}}

{{Cite journal |last1=Best |first1=William M. J. |last2=Liu |first2=Michael C. |last3=Magnier |first3=Eugene A. |last4=Bowler |first4=Brendan P. |last5=Aller |first5=Kimberly M. |last6=Zhang |first6=Zhoujian |last7=Kotson |first7=Michael C. |last8=Burgett |first8=W. S. |last9=Chambers |first9=K. C. |last10=Draper |first10=P. W. |last11=Flewelling |first11=H. |last12=Hodapp |first12=K. W. |last13=Kaiser |first13=N. |last14=Metcalfe |first14=N. |last15=Wainscoat |first15=R. J. |date=March 2017 |title=A Search for L/T Transition Dwarfs with Pan-STARRS1 and WISE. III. Young L Dwarf Discoveries and Proper Motion Catalogs in Taurus and Scorpius-Centaurus |journal=The Astrophysical Journal |language=en |volume=837 |issue=1 |pages=95 |arxiv=1702.00789 |bibcode=2017ApJ...837...95B |doi=10.3847/1538-4357/aa5df0 |doi-access=free |issn=0004-637X}}

{{Cite journal |last1=Mohanty |first1=Subhanjoy |last2=Jayawardhana |first2=Ray |last3=Basri |first3=Gibor |date=June 2005 |title=The T Tauri Phase Down to Nearly Planetary Masses: Echelle Spectra of 82 Very Low Mass Stars and Brown Dwarfs |url=https://ui.adsabs.harvard.edu/abs/2005ApJ...626..498M/abstract |journal=The Astrophysical Journal |language=en |volume=626 |issue=1 |pages=498–522 |arxiv=astro-ph/0502155 |bibcode=2005ApJ...626..498M |doi=10.1086/429794 |issn=0004-637X}}

{{Cite journal |last1=Betti |first1=S. K. |last2=Follette |first2=K. B. |last3=Ward-Duong |first3=K. |last4=Aoyama |first4=Y. |last5=Marleau |first5=G.-D. |last6=Bary |first6=J. |last7=Robinson |first7=C. |last8=Janson |first8=M. |last9=Balmer |first9=W. |last10=Chauvin |first10=G. |last11=Palma-Bifani |first11=P. |date=August 2022 |title=Near-infrared Accretion Signatures from the Circumbinary Planetary-mass Companion Delorme 1 (AB)b |journal=The Astrophysical Journal |language=en |volume=935 |issue=1 |pages=L18 |arxiv=2208.05016 |bibcode=2022ApJ...935L..18B |doi=10.3847/2041-8213/ac85ef |doi-access=free |issn=0004-637X}}

}}

Category:Rogue planets

Category:M-type brown dwarfs

Category:Taurus (constellation)

Category:Astronomical objects discovered in 2003

Category:Circumstellar disks