WL 17 , the SIMBAD biblio

WL 17 , the SIMBAD biblio (102 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.04.18CEST15:36:48

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Keywords 		in a table in teXt, Caption, ... Nb occurence Nb objects in ref Citations
(from ADS) 		Title First 3 Authors
1983ApJ...274..698W 2 26 378 The discovery of new embedded sources in the centrally condensed core of the rho Ophiuchi dark cloud: the formation of a bound cluster ? WILKING B.A. and LADA C.J.
1984ApJ...287..610L 3 27 466 The nature of the embedded population in the rho Ophiuchi dark cloud: mid-infrared observations. LADA C.J. and WILKING B.A.
1989ApJ...340..823W 150 434 IRAS observations of the rho Ophiuchi infrared cluster : spectral energy distributions and luminosity function. WILKING B.A., LADA C.J. and YOUNG E.T.
1989ApJ...346L..93B 62 44 Discovery of new 2 micron sources in rho Ophiuchi. BARSONY M., BURTON M.G., RUSSELL A.P.G., et al.
1990RMxAA..21..356G 78 5 The luminosity of the stars embedded in the Chamaeleon I and in the rho Ophiuchi molecular clouds. GREGORIO-HETEM J.C., LEPINE J.R.D. and ORTIZ R.P.
1992ApJ...395..516G 485 150 Near-infrared observations of young stellar objects in the rho Ophiuchi dark cloud. GREENE T.P. and YOUNG E.T.
1993ApJ...416..185C 91 113 The stellar population in the rho Ophiuchi cluster. COMERON F., RIEKE G.H., BURROWS A., et al.
1994ApJ...420..837A 1 129 539 From T Tauri stars to protostars: circumstellar material and young stellar objects in the rho Ophiuchi cloud. ANDRE P. and MONTMERLE T.
1995ApJ...438..813S viz 142 93 The evolutionary status of the stellar population in the rho Ophiuchi cloud core. STROM K.M., KEPNER J. and STROM S.E.
1995ApJ...439..752C 151 196 ROSAT X-ray sources embedded in the rho Ophiuchi cloud core. CASANOVA S., MONTMERLE T., FEIGELSON E.D., et al.
1996AJ....112.2184G 103 162 Near-infrared spectra and the evolutionary status of young stellar objects: results of a 1.1-2.4 microm. survey. GREENE T.P. and LADA C.J.
1997ApJS..112..109B viz 4491 119 A near-infrared imaging survey of the ρ Ophiuchi cloud core. BARSONY M., KENYON S.J., LADA E.A., et al.
1997PASJ...49..461K 29 74 X-ray analysis of the rho Ophiuchi dark cloud with ASCA: source identification, X-ray spectra, and temporal variability. KAMATA Y., KOYAMA K., TSUBOI Y., et al.
1998AJ....116.2965M 1 61 303 A Brγ probe of disk accretion in T Tauri stars and embedded young stellar objects. MUZEROLLE J., HARTMANN L. and CALVET N.
1999ApJ...525..440L 132 260 Low-mass star formation and the initial mass function in the ρ Ophiuchi cloud core. LUHMAN K.L. and RIEKE G.H.
2000ApJ...545..327J 1 67 313 Large-area mapping at 850 microns. II. Analysis of the clump distribution in the ρ Ophiuchi molecular cloud. JOHNSTONE D., WILSON C.D., MORIARTY-SCHIEVEN G., et al.
2001A&A...372..173B viz 230 244 ISOCAM observations of the ρ Ophiuchi cloud: Luminosity and mass functions of the pre-main sequence embedded cluster. BONTEMPS S., ANDRE P., KAAS A.A., et al.
2001ApJ...557..747I 90 190 Chandra observation of the ρ Ophiuchi cloud. IMANISHI K., KOYAMA K. and TSUBOI Y.
2002ApJ...566..993A viz 15       D               1 173 58 Hubble space Telescope/NICMOS imaging survey of the Ophiuchus (Lynds 1688) cluster. ALLEN L.E., MYERS P.C., DI FRANCESCO J., et al.
2002ApJ...570..708B 1 15 59 The environment and nature of the class I protostar Elias 29: molecular gas observations and the location of ices. BOOGERT A.C.A., HOGERHEIJDE M.R., CECCARELLI C., et al.
2003PASJ...55..653I viz 15       D               211 39 A systematic study of X-ray flares from low-mass young stellar objects in the rho Ophiuchi star-forming region with Chandra. IMANISHI K., NAKAJIMA H., TSUJIMOTO M., et al.
2004A&A...427..651D 150 99 Multiple protostellar systems. I. A deep near infrared survey of Taurus and Ophiuchus protostellar objects. DUCHENE G., BOUVIER J., BONTEMPS S., et al.
2004AJ....127.1747H 92 51 A near-infrared multiplicity survey of class I/Flat-spectrum systems in six nearby molecular clouds. HAISCH K.E.Jr, GREENE T.P., BARSONY M., et al.
2005A&A...429..963O viz 98 40 The X-ray emission from Young Stellar Objects in the ρ Ophiuchi cloud core as seen by XMM-Newton. OZAWA H., GROSSO N. and MONTMERLE T.
2005AJ....130.1145D viz 83 106 The physical natures of class I and flat-spectrum protostellar photospheres: a near-infrared spectroscopic study. DOPPMANN G.W., GREENE T.P., COVEY K.R., et al.
2005ApJ...630..381B viz 178 44 A mid-infrared imaging survey of embedded young stellar objects in the ρ Ophiuchi cloud core. BARSONY M., RESSLER M.E. and MARSH K.A.
2006A&A...447..609S viz         O           245 128 An unbiased search for the signatures of protostars in the ρ Ophiuchi molecular cloud. II. Millimetre continuum observations. STANKE T., SMITH M.D., GREDEL R., et al.
2006A&A...452..245N viz 1 144 288 Accretion in the ρ-Ophiuchi pre-main sequence stars. NATTA A., TESTI L. and RANDICH S.
2006AJ....131..512C 44 26 The radial velocity distribution of class I and flat-spectrum protostars. COVEY K.R., GREENE T.P., DOPPMANN G.W., et al.
2006A&A...460..547G 22 29 Accretion in ρ Ophiuchus brown dwarfs: infrared hydrogen line ratios. GATTI T., TESTI L., NATTA A., et al.
2007ApJ...657L..33B 13 9 A CO (J=3-2) outflow survey of the Elias 29 region. BUSSMANN R.S., WONG T.W., HEDDEN A.S., et al.
2007A&A...476..229D 15       D               2 76 69 Multiple protostellar systems. II. A high resolution near-infrared imaging survey in nearby star-forming regions. DUCHENE G., BONTEMPS S., BOUVIER J., et al.
2007ApJ...671.1800A viz 15       D               1 164 281 A submillimeter view of circumstellar dust disks in ρ Ophiuchi. ANDREWS S.M. and WILLIAMS J.P.
2008ApJ...672.1013P 162 72 The Spitzer c2d survey of large, nearby, interstellar clouds. VII. Ophiuchus observed with MIPS. PADGETT D.L., REBULL L.M., STAPELFELDT K.R., et al.
2008ApJS..175..277D viz 15       D               7166 308 The SCUBA legacy catalogues: submillimeter-continuum objects detected by SCUBA. DI FRANCESCO J., JOHNSTONE D., KIRK H., et al.
2008A&A...485..155A viz 15       D               182 39 Deep near-IR variability survey of pre-main-sequence stars in ρ Ophiuchi. ALVES DE OLIVEIRA C. and CASALI M.
2008ApJ...683..822J viz 15       D               3 127 123 Current star formation in the Ophiuchus and Perseus molecular clouds: constraints and comparisons from unbiased submillimeter and mid-infrared surveys. II. JORGENSEN J.K., JOHNSTONE D., KIRK H., et al.
2008MNRAS.391..205S 15       D               1 109 51 The initial conditions of star formation - VIII. An observational study of the Ophiuchus cloud L1688 and implications for the pre-stellar core mass function. SIMPSON R.J., NUTTER D. and WARD-THOMPSON D.
2009ApJ...692..973E viz 15       D               1 165 315 Properties of the youngest protostars in Perseus, Serpens, and Ophiuchus. ENOCH M.L., EVANS N.J., SARGENT A.I., et al.
2009ApJS..181..321E viz 15       D               1 1054 1239 The Spitzer c2d legacy results: star-formation rates and efficiencies: evolution and lifetimes. EVANS N.J., DUNHAM M.M., JORGENSEN J.K., et al.
2009A&A...498..167V viz 697       D     X C       18 60 86 The nature of the class I population in Ophiuchus as revealed through gas and dust mapping. VAN KEMPEN T.A., VAN DISHOECK E.F., SALTER D.M., et al.
2009ApJ...700.1440J 2789   K A     X C       73 10 15 First magnetic field detection on a class I protostar. JOHNS-KRULL C.M., GREENE T.P., DOPPMANN G.W., et al.
2009ApJS..184...18G viz 15       D               2 2602 566 A Spitzer survey of young stellar clusters within one kiloparsec of the Sun: cluster core extraction and basic structural analysis. GUTERMUTH R.A., MEGEATH S.T., MYERS P.C., et al.
2009A&A...505..695F 15       D               13 60 18 Results from DROXO. II. [NeII] and X-ray emission from ρ Ophiuchi young stellar objects. FLACCOMIO E., STELZER B., SCIORTINO S., et al.
2010ApJ...710.1247S viz 15       D               1 761 87 The mass distribution of starless and protostellar cores in Gould Belt clouds. SADAVOY S.I., DI FRANCESCO J., BONTEMPS S., et al.
2010ApJS..188...75M 168       D     X         5 167 112 The evolutionary state of the pre-main sequence population in Ophiuchus: a large infrared spectrograph survey. McCLURE M.K., FURLAN E., MANOJ P., et al.
2010A&A...515A..75A viz 76           X         2 166 38 The low-mass population of the ρ Ophiuchi molecular cloud. ALVES DE OLIVEIRA C., MORAUX E., BOUVIER J., et al.
2010A&A...519A..34P viz 15       D               5 160 19 Results from DROXO. III. Observation, source list, and X-ray properties of sources detected in the ``Deep rho Ophiuchi XMM-Newton observation''. PILLITTERI I., SCIORTINO S., FLACCOMIO E., et al.
2011NewAR..55...23V 38           X         1 220 6 Magnetic fields in the nearby Universe, as observed in solar and planetary realms, stars, and interstellar starforming nurseries. VALLEE J.P.
2012AN....333....4H 39           X         1 17 9 T Tauri star magnetic fields and magnetospheres. HUSSAIN G.A.J.
2012MNRAS.420.3334S 39           X         1 17 15 Radio continuum observations of class I protostellar discs in Taurus: constraining the greybody tail at centimetre wavelengths. SCAIFE A.M.M., BUCKLE J.V., AINSWORTH R.E., et al.
2012A&A...539A..62V 170       D     X         5 44 6 Finding proto-spectroscopic binaries. Precise multi-epoch radial velocities of seven protostars in ρ Ophiuchus. VIANA ALMEIDA P., MELO C., SANTOS N.C., et al.
2012ApJ...751...22B viz 15       D               1 1078 11 A significant population of candidate new members of the ρ Ophiuchi cluster. BARSONY M., HAISCH K.E., MARSH K.A., et al.
2012ApJ...756...27L viz 15       D               1 4348 64 Classification of X-ray sources in the XMM-Newton serendipitous source catalog. LIN D., WEBB N.A. and BARRET D.
2013ApJS..205....5H viz 16       D               1 1329 12 Populations of young stellar objects in nearby molecular clouds. HSIEH T.-H. and LAI S.-P.
2013A&A...556A..76V 328       D     X         9 61 37 Outflow forces of low-mass embedded objects in Ophiuchus: a quantitative comparison of analysis methods. VAN DER MAREL N., KRISTENSEN L.E., VISSER R., et al.
2014ApJS..211....3P viz 94       D       C       2 109 29 Periodic and aperiodic variability in the molecular cloud ρ Ophiuchus. PARKS J.R., PLAVCHAN P., WHITE R.J., et al.
2015MNRAS.446.2550R 119           X C       2 26 10 Very low-luminosity Class I/flat outflow sources in σ Orionis. RIAZ B., THOMPSON M., WHELAN E.T., et al.
2015MNRAS.447.1996W viz 214       D     X   F     5 168 26 The James Clerk Maxwell telescope Legacy Survey of the Gould Belt: a molecular line study of the Ophiuchus molecular cloud. WHITE G.J., DRABEK-MAUNDER E., ROSOLOWSKY E., et al.
2015MNRAS.450.1094P 16       D               1 115 110 The JCMT Gould Belt Survey: first results from the SCUBA-2 observations of the Ophiuchus molecular cloud and a virial analysis of its prestellar core population. PATTLE K., WARD-THOMPSON D., KIRK J.M., et al.
2015A&A...579A..66M viz 16       D               1 188 53 X-Shooter study of accretion in ρ-Ophiucus: very low-mass stars and brown dwarfs. MANARA C.F., TESTI L., NATTA A., et al.
2015ApJS..220...11D viz 16       D               1 2988 232 Young stellar objects in the Gould belt. DUNHAM M.M., ALLEN L.E., EVANS II N.J., et al.
2015ApJ...815....2W 16       D               3 87 5 Relative proper motions in the rho Ophiuchi cluster. WILKING B.A., VRBA F.J. and SULLIVAN T.
2008yCat.2289....0W viz 15       D               1 314 ~ JKH photometry in LDN 1688. WILKING B.A., GAGNE M. and ALLEN L.E.
2016A&A...586A..44C 40           X         1 97 12 Classifying the embedded young stellar population in Perseus and Taurus and the LOMASS database. CARNEY M.T., YILDIZ U.A., MOTTRAM J.C., et al.
2016A&A...587A..36P 80               F     5 13 4 Results from DROXO. IV. EXTraS discovery of an X-ray flare from the ClassI protostar candidate ISO-Oph 85. PIZZOCARO D., STELZER B., PALADINI R., et al.
2016ApJ...828...52W 80             C       1 95 11 Evolution of mass outflow in protostars. WATSON D.M., CALVET N.P., FISCHER W.J., et al.
2017ApJ...835....3L viz 16       D               3 60 5 Externally heated protostellar cores in the Ophiuchus star-forming region. LINDBERG J.E., CHARNLEY S.B., JORGENSEN J.K., et al.
2017A&A...597A..90D viz 16       D               1 107 7 Proper motion survey and kinematic analysis of the ρ Ophiuchi embedded cluster. DUCOURANT C., TEIXEIRA R., KRONE-MARTINS A., et al.
2017ApJ...838..114K 16       D               3 96 20 ALMA observations of starless core substructure in Ophiuchus. KIRK H., DUNHAM M.M., DI FRANCESCO J., et al.
2017ApJ...840L..12S 1410 T K A     X C       33 3 15
WL 17: a young embedded transition disk. 		SHEEHAN P.D. and EISNER J.A.
2017ApJ...851...45S 43           X         1 21 58 Disk masses for embedded class I protostars in the Taurus Molecular Cloud. SHEEHAN P.D. and EISNER J.A.
2018ApJ...856...23G viz 16       D               1 1601 367 BANYAN. XI. The BANYAN Σ multivariate Bayesian algorithm to identify members of young associations with 150 pc. GAGNE J., MAMAJEK E.E., MALO L., et al.
2018MNRAS.475.5618B 45           X         1 48 202 On the diversity and statistical properties of protostellar discs. BATE M.R.
2018MNRAS.478.5190R 16       D               1 15 ~ The role of external far-ultraviolet irradiation in the survival of astrophysical ices in Elias 29. ROCHA W.R.M. and PILLING S.
2018ApJ...865..102T 643     A S   X         15 2 3 Structure formation in a young protoplanetary disk by a magnetic disk wind. TAKAHASHI S.Z. and MUTO T.
2019MNRAS.482..698C viz 17       D               1 160 140 The Ophiuchus DIsc Survey Employing ALMA (ODISEA) - I: project description and continuum images at 28 au resolution. CIEZA L.A., RUIZ-RODRIGUEZ D., HALES A., et al.
2019ApJ...872..112V 48           X         1 19 119 Protoplanetary disk rings and gaps across ages and luminosities. VAN DER MAREL N., DONG R., DI FRANCESCO J., et al.
2019AJ....157..110E 42           X         1 15 4 Resolved imaging of the AR Puppis circumbinary disk. ERTEL S., KAMATH D., HILLEN M., et al.
2019ApJ...875L...9W viz 17       D               1 274 72 The Ophiuchus DIsk Survey Employing ALMA (ODISEA): disk dust mass distributions across protostellar evolutionary Classes. WILLIAMS J.P., CIEZA L., HALES A., et al.
2019ApJ...877...93C 17       D               1 186 48 Droplets. I. Pressure-dominated coherent structures in L1688 and B18. CHEN H.H.-H., PINEDA J.E., GOODMAN A.A., et al.
2019AJ....158...41S 268       D     X         7 46 ~ A radial velocity survey of embedded sources in the rho Ophiuchi cluster. SULLIVAN T., WILKING B.A., GREENE T.P., et al.
2019ApJ...881..112O 42           X         1 24 20 Sulfur-bearing species tracing the Disk/Envelope system in the class I protostellar source Elias 29. OYA Y., LOPEZ-SEPULCRE A., SAKAI N., et al.
2019ApJ...882...75F 125           X         3 27 16 Measuring the magnetic field of young stars using iSHELL observations: BP Tau and V347 Aur. FLORES C., CONNELLEY M.S., REIPURTH B., et al.
2019ApJS..245....2S 894       D     X C       21 62 43 Dust polarization toward embedded protostars in Ophiuchus with ALMA. III. Survey overview. SADAVOY S.I., STEPHENS I.W., MYERS P.C., et al.
2020ApJ...888..116S 17       D               1 47 ~ The mean magnetic field strength of CI Tau. SOKAL K.R., JOHNS-KRULL C.M., MACE G.N., et al.
2020A&A...638A..74L viz 17       D               1 545 50 The Herschel view of the dense core population in the Ophiuchus molecular cloud. LADJELATE B., ANDRE P., KONYVES V., et al.
2020ApJ...899...55A viz 17       D               1 165 8 Search for alignment of disk orientations in nearby star-forming regions: Lupus, Taurus, Upper Scorpius, ρ Ophiuchi, and Orion. AIZAWA M., SUTO Y., OYA Y., et al.
2020ApJ...900..182T 43           X         1 8 ~ Secular gravitational instability of drifting dust in protoplanetary disks: formation of dusty rings without significant gas substructures. TOMINAGA R.T., TAKAHASHI S.Z. and INUTSUKA S.-I.
2020ApJ...902..141S 87           X         2 17 46 The VLA/ALMA Nascent Disk and Multiplicity (VANDAM) Survey of Orion Protostars. III. Substructures in protostellar disks. SHEEHAN P.D., TOBIN J.J., FEDERMAN S., et al.
2020Natur.586..228S 98           X         2 7 93 Four annular structures in a protostellar disk less than 500,000 years old SEGURA-COX D.M., SCHMIEDEKE A., PINEDA J.E., et al.
2021ApJ...907...80O 61       D     X         2 23 17 Ring formation by coagulation of dust aggregates in the early phase of disk evolution around a protostar. OHASHI S., KOBAYASHI H., NAKATANI R., et al.
2021ApJ...913..149E 17       D               1 35 9 870 µm dust continuum of the youngest protostars in Ophiuchus. ENCALADA F.J., LOONEY L.W., TOBIN J.J., et al.
2021AJ....162...28V viz 17       D               1 661 47 A stellar mass dependence of structured disks: a possible link with exoplanet demographics. VAN DER MAREL N. and MULDERS G.D.
2021ApJ...918...39L 87             C       1 11 5 HAWC+/SOFIA polarimetry in L1688: relative orientation of magnetic field and elongated cloud structure. LEE D., BERTHOUD M., CHEN C.-Y., et al.
2021ApJ...920..132P viz 17       D               1 5441 33 Quantifying variability of young stellar objects in the mid-infrared over 6 years with the Near-Earth Object Wide-field Infrared Survey Explorer. PARK W., LEE J.-E., CONTRERAS PENA C., et al.
2021ApJ...922..150G 1855 T   A     X C       41 2 2 Detection of substructures in young transition disk
WL 17. 		GULICK H.C., SADAVOY S., MATRA L., et al.
2023A&A...673A..54G 93           X         2 7 1 What governs the spin distribution of very young < 1 Myr low-mass stars. GEHRIG L. and VOROBYOV E.I.
2023ApJ...951....8O 140           X         3 92 7 Early Planet Formation in Embedded Disks (eDisk). I. Overview of the Program and First Results. OHASHI N., TOBIN J.J., JORGENSEN J.K., et al.
2023ApJ...956....9H 2314 T   A     X C       48 16 ~ Grain Growth and Dust Segregation Revealed by Multiwavelength Analysis of the Class I Protostellar Disk
WL 17. 		HAN I., KWON W., ASO Y., et al.
2023AJ....166..184M 47           X         1 32 ~ Finding Substructures in Protostellar Disks in Ophiuchus. MICHEL A., SADAVOY S.I., SHEEHAN P.D., et al.
2024ApJ...961..228S 7080 T   A S   X C       139 4 ~ Ring Gap Structure around Class I Protostar
WL 17. 		SHOSHI A., HARADA N., TOKUDA K., et al.

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