V* MY Lup , the SIMBAD biblio

V* MY Lup , the SIMBAD biblio (111 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.04.25CEST09:25:53

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Keywords 		in a table in teXt, Caption, ... Nb occurence Nb objects in ref Citations
(from ADS) 		Title First 3 Authors
1992AJ....103..549G 121 230 A search for T Tauri stars based on the IRAS Point Source Catalog. I. GREGORIO-HETEM J., LEPINE J.R.D., QUAST G.R., et al.
1993AJ....105..571H 44 56 The distance to the Lupus star formation region. HUGHES J., HARTIGAN P. and CLAMPITT L.
1994AJ....108.1071H 78 178 The stellar population of the Lupus clouds. HUGHES J., HARTIGAN P., KRAUTTER J., et al.
1997ApJ...478..295C 265 66 Comparison of star formation in five nearby molecular clouds. CHEN H., GRENFELL T.G., MYERS P.C., et al.
1998A&AS..128..561B viz 27 22 Photometric variability of southern T Tauri stars. BATALHA C.C., QUAST G.R., TORRES C.A.O., et al.
2000A&A...361.1143T viz 253 41 Proper motions of pre-main sequence stars in southern star-forming regions. TEIXEIRA R., DUCOURANT C., SARTORI M.J., et al.
2000ApJ...532.1038V 168 27 Dense cores of dark clouds. XII. 13CO and C18O in Lupus, Corona Australis, Vela, and Scorpius. VILAS-BOAS J.W.S., MYERS P.C. and FULLER G.A.
2000IBVS.4870....1K 922 40 The 75th name-list of variable stars. KAZAROVETS E.V., SAMUS N.N. and DURLEVICH O.V.
2002MNRAS.336..197G 29 31 Classification of a selected sample of weak T Tauri stars. GREGORIO-HETEM J. and HETEM A.Jr
2003A&A...404..913S viz 1239 88 Formation scenarios for the young stellar associations between galactic longitudes l=280°-360°. SARTORI M.J., LEPINE J.R.D. and DIAS W.S.
2005A&A...438..769D viz 1380 87 Pre-main sequence star Proper Motion Catalogue. DUCOURANT C., TEIXEIRA R., PERIE J.-P., et al.
2008ApJS..177..551M viz 15       D               172 135 The Spitzer c2d survey of large, nearby, interstellar clouds. XI. Lupus observed with IRAC and MIPS. MERIN B., JORGENSEN J., SPEZZI L., 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...500.1045C viz 76             C       1 274 21 A new population of cool stars and brown dwarfs in the Lupus clouds. COMERON F., SPEZZI L. and LOPEZ MARTI B.
2010A&A...515A..77L 397       D     X         11 95 38 Grain growth across protoplanetary discs: 10 µm silicate feature versus millimetre slope. LOMMEN D.J.P., VAN DISHOECK E.F., WRIGHT C.M., et al.
2011A&A...529A.108L viz 15       D               1 190 14 A proper motion study of the Lupus clouds using virtual observatory tools. LOPEZ MARTI B., JIMENEZ-ESTEBAN F. and SOLANO E.
2012ApJ...749...79R viz 15       D               3 84 37 The nature of transition circumstellar disks. II. Southern molecular clouds. ROMERO G.A., SCHREIBER M.R., CIEZA L.A., et al.
2012A&A...548A..79A viz 15       D               1 5273 86 The first INTEGRAL-OMC catalogue of optically variable sources. ALFONSO-GARZON J., DOMINGO A., MAS-HESSE J.M., et al.
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.
2014A&A...572A..62A 16       D               4 158 21 POISSON project. III. Investigating the evolution of the mass accretion rate. ANTONIUCCI S., GARCIA LOPEZ R., NISINI B., et al.
2015A&A...574A..41A 135       D     X         4 91 28 The VLTI/PIONIER near-infrared interferometric survey of southern T Tauri stars. I. First results. ANTHONIOZ F., MENARD F., PINTE C., et al.
2015A&A...578A..23B 95       D       C       4 44 20 Identification of new transitional disk candidates in Lupus with Herschel. BUSTAMANTE I., MERIN B., RIBAS 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.
2016A&A...591L...3M 18       D               1 64 137 Evidence for a correlation between mass accretion rates onto young stars and the mass of their protoplanetary disks. MANARA C.F., ROSOTTI G., TESTI L., et al.
2016A&A...592A.126V viz 16       D               1 237 63 The (w)hole survey: An unbiased sample study of transition disk candidates based on Spitzer catalogs. VAN DER MAREL N., VERHAAR B.W., VAN TERWISGA S., et al.
2016ApJ...828...46A viz 60       D     X         2 111 483 ALMA survey of Lupus protoplanetary disks. I. Dust and gas masses. ANSDELL M., WILLIAMS J.P., VAN DER MAREL N., et al.
2016ApJ...831..125P viz 16       D               1 427 330 A steeper than linear disk mass-stellar mass scaling relation. PASCUCCI I., TESTI L., HERCZEG G.J., et al.
2017ApJ...837..163R 58       D     X         2 32 63 Protoplanetary disks as (possibly) viscous disks. RAFIKOV R.R.
2017A&A...599A.113M 82           X         2 93 155 Lupus disks with faint CO isotopologues: low gas/dust or high carbon depletion? MIOTELLO A., VAN DISHOECK E.F., WILLIAMS J.P., et al.
2017A&A...600A..20A viz 424       D     X         11 135 270 X-shooter spectroscopy of young stellar objects in Lupus. Accretion properties of class II and transitional objects. ALCALA J.M., MANARA C.F., NATTA A., et al.
2017A&A...602A..33F viz 219       D     X C       5 115 64 X-shooter spectroscopy of young stellar objects in Lupus. Atmospheric parameters, membership, and activity diagnostics. FRASCA A., BIAZZO K., ALCALA J.M., et al.
2017MNRAS.466.4083U 463       D     X         12 21 2 Radio monitoring of protoplanetary discs. UBACH C., MADDISON S.T., WRIGHT C.M., et al.
2017ApJ...847...31M viz 16       D               1 174 26 Constraints from dust mass and mass accretion rate measurements on angular momentum transport in protoplanetary disks. MULDERS G.D., PASCUCCI I., MANARA C.F., et al.
2017A&A...605A..66B 301       D   O X C       7 97 6 X-shooter spectroscopy of young stellar objects in Lupus. Lithium, iron, and barium elemental abundances. BIAZZO K., FRASCA A., ALCALA J.M., et al.
2017A&A...606A..88T 424       D     X C       10 54 113 Physical properties of dusty protoplanetary disks in Lupus: evidence for viscous evolution? TAZZARI M., TESTI L., NATTA A., et al.
2018A&A...609A..87N 143 59 Connection between jets, winds and accretion in T Tauri stars. The X-shooter view. NISINI B., ANTONIUCCI S., ALCALA J.M., et al.
2018ApJ...854..177V 306       D     X         8 70 97 New insights into the nature of transition disks from a complete disk survey of the Lupus star-forming region. VAN DER MAREL N., WILLIAMS J.P., ANSDELL M., et al.
2018ApJ...855...98A 41           X         1 15 4 A UV-to-NIR study of molecular gas in the dust cavity around RY Lupi. ARULANANTHAM N., FRANCE K., HOADLEY K., et al.
2018ApJ...859...21A viz 18       D               2 107 270 ALMA survey of Lupus protoplanetary disks. II. Gas disk radii. ANSDELL M., WILLIAMS J.P., TRAPMAN L., et al.
2018ApJ...863...44A 1223       D S   X C       28 19 248 Disks ARound T Tauri stars with SPHERE (DARTTS-S). I. SPHERE/IRDIS polarimetric imaging of eight prominent T Tauri disks. AVENHAUS H., QUANZ S.P., GARUFI A., et al.
2018A&A...616A.100Y 16       D     X         1 49 4 Stellar masses and disk properties of Lupus young stellar objects traced by velocity-aligned stacked ALMA 13CO and C18O spectra. YEN H.-W., KOCH P.M., MANARA C.F., et al.
2018ApJ...865..157A 222       D     X         6 118 104 Scaling relations associated with millimeter continuum sizes in protoplanetary disks. ANDREWS S.M., TERRELL M., TRIPATHI A., et al.
2018A&A...618L...3M 17       D               2 131 147 Why do protoplanetary disks appear not massive enough to form the known exoplanet population? MANARA C.F., MORBIDELLI A. and GUILLOT T.
2018ApJ...867..151D viz 16       D               1 389 80 Distances and kinematics of Gould Belt star-forming regions with Gaia DR2 results. DZIB S.A., LOINARD L., ORTIZ-LEON G.N., et al.
2018A&A...619A..52B viz 16       D               1 48 8 A catalogue of dense cores and young stellar objects in the Lupus complex based on Herschel Gould Belt Survey observations. BENEDETTINI M., PEZZUTO S., SCHISANO E., et al.
2018ApJ...869L..41A viz 38       D               5 30 685 The Disk Substructures at High Angular Resolution Project (DSHARP). I. Motivation, sample, calibration, and overview. ANDREWS S.M., HUANG J., PEREZ L.M., et al.
2018ApJ...869L..42H viz 599       D     X C       14 49 314 The Disk Substructures at High Angular Resolution Project (DSHARP). II. Characteristics of annular substructures. HUANG J., ANDREWS S.M., DULLEMOND C.P., et al.
2018A&A...620A..94G 100       D     X         3 75 88 Evolution of protoplanetary disks from their taxonomy in scattered light: spirals, rings, cavities, and shadows. GARUFI A., BENISTY M., PINILLA P., et al.
2018A&A...620A.172Z viz 16       D               1 127607 99 3D mapping of young stars in the solar neighbourhood with Gaia DR2. ZARI E., HASHEMI H., BROWN A.G.A., et al.
2019A&A...623A.150V 106 34 The ALMA Lupus protoplanetary disk survey: evidence for compact gas disks and molecular rings from CN. VAN TERWISGA S.E., VAN DISHOECK E.F., CAZZOLETTI P., et al.
2019A&A...629A.108A 3745 T K A S   X C       87 92 38 HST spectra reveal accretion in

MY Lupi. 		ALCALA J.M., MANARA C.F., FRANCE K., et al.
2019A&A...631L...2M 172 49 Constraining disk evolution prescriptions of planet population synthesis models with observed disk masses and accretion rates. MANARA C.F., MORDASINI C., TESTI L., et al.
2019A&A...631A..69M viz 378           X C       8 23 57 Bright C2H emission in protoplanetary discs in Lupus: high volatile C/O > 1 ratios. MIOTELLO A., FACCHINI S., VAN DISHOECK E.F., et al.
2020A&A...633A..82G viz 44           X         1 37 48 Disks Around T Tauri Stars with SPHERE (DARTTS-S). II. Twenty-one new polarimetric images of young stellar disks. GARUFI A., AVENHAUS H., PEREZ S., et al.
2020ApJ...890L...9P 47           X         1 25 117 Nine localized deviations from Keplerian rotation in the DSHARP circumstellar disks: kinematic evidence for protoplanets carving the gaps. PINTE C., PRICE D.J., MENARD F., et al.
2020MNRAS.492..210V 43           X         1 15 ~ Self-induced dust traps around snow lines in protoplanetary discs. VERICEL A. and GONZALEZ J.-F.
2020AJ....159..168A 826       D     X C       19 21 ~ Probing uv-sensitive pathways for CN and HCN formation in protoplanetary disks with the Hubble Space Telescope. ARULANANTHAM N., FRANCE K., CAZZOLETTI P., et al.
2020A&A...635A.105P 17       D               1 78 47 Hints on the origins of particle traps in protoplanetary disks given by the Mdust - M relation. PINILLA P., PASCUCCI I. and MARINO S.
2020ApJ...895L..46L 43           X         1 7 ~ Hints of a population of solar system analog planets from ALMA. LONG D.E., ZHANG K., TEAGUE R., et al.
2020ApJ...895..126H viz 17       D               3 177 62 The evolution of dust disk sizes from a homogeneous analysis of 1-10 Myr old stars. HENDLER N., PASCUCCI I., PINILLA P., et al.
2020A&A...638A..38T 315       D     X         8 33 ~ Constraining the radial drift of millimeter-sized grains in the protoplanetary disks in Lupus. TRAPMAN L., ANSDELL M., HOGERHEIJDE M.R., 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.
2020MNRAS.496.3257B viz 187       D     X         5 26 19 The ASAS-SN catalogue of variable stars - VIII. 'Dipper' stars in the Lupus star-forming region. BREDALL J.W., SHAPPEE B.J., GAIDOS E., et al.
2020A&A...639L...8F 43           X         1 17 ~ ISO-ChaI 52: a weakly accreting young stellar object with a dipper light curve. FRASCA A., MANARA C.F., ALCALA J.M., et al.
2020A&A...640A...5T 18       D               2 38 47 Observed sizes of planet-forming disks trace viscous spreading. TRAPMAN L., ROSOTTI G., BOSMAN A.D., et al.
2020MNRAS.498.2845S 45           X         1 15 31 A dusty origin for the correlation between protoplanetary disc accretion rates and dust masses. SELLEK A.D., BOOTH R.A. and CLARKE C.J.
2020AJ....160..186L viz 17       D               1 235 15 A Gaia survey for young stars associated with the Lupus clouds. LUHMAN K.L.
2020MNRAS.498.5116I 43           X         1 12 11 Observing protoplanetary discs with the Square Kilometre Array - I. Characterizing pebble substructure caused by forming planets. ILEE J.D., HALL C., WALSH C., et al.
2020A&A...642A.162G 43           X         1 12 ~ The GRAVITY young stellar object survey. III. The dusty disk of RY Lup. GRAVITY COLLABORATION, BOUAROUR Y.-I., PERRAUT K., et al.
2020ApJ...903..124B 102       D     X         3 67 38 Hints for icy pebble migration feeding an oxygen-rich chemistry in the inner planet-forming region of disks. BANZATTI A., PASCUCCI I., BOSMAN A.D., et al.
2020A&A...643A.148G viz 17       D               1 154 27 Lupus DANCe. Census of stars and 6D structure with Gaia-DR2 data. GALLI P.A.B., BOUY H., OLIVARES J., et al.
2021ApJ...907...80O 17       D               1 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...908...46B 17       D               4 76 16 Dynamical stellar masses of pre-main-sequence stars in Lupus and Taurus obtained with ALMA surveys in comparison with stellar evolutionary models. BRAUN T.A.M., YEN H.-W., KOCH P.M., et al.
2021A&A...649A..19S 366       D     X   F     8 53 39 Measuring the ratio of the gas and dust emission radii of protoplanetary disks in the Lupus star-forming region. SANCHIS E., TESTI L., NATTA A., et al.
2021JAVSO..49...49H         O           9 ~ Light Curve Analysis of 185 YSOs: New Periods Discovered for 9 Stars. HAMILTON J.R.
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.
2021MNRAS.506.2804T 235       D     X         6 51 33 Multiwavelength continuum sizes of protoplanetary discs: scaling relations and implications for grain growth and radial drift. TAZZARI M., CLARKE C.J., TESTI L., et al.
2021MNRAS.506.5117T 453       D     X C       10 54 25 The first ALMA survey of protoplanetary discs at 3 mm: demographics of grain growth in the Lupus region. TAZZARI M., TESTI L., NATTA A., et al.
2021A&A...653L...9V 104       D         F     3 29 16 If you like C/O variations, you should have put a ring on it. VAN DER MAREL N., BOSMAN A.D., KRIJT S., et al.
2021A&A...653A.138D 366       D     X C       8 18 ~ RHAPSODIE: Reconstruction of High-contrAst Polarized SOurces and Deconvolution for cIrcumstellar Environments. DENNEULIN L., LANGLOIS M., THIEBAUT E., et al.
2021MNRAS.507..818T 45           X         1 21 32 On the secular evolution of the ratio between gas and dust radii in protoplanetary discs. TOCI C., ROSOTTI G., LODATO G., et al.
2021AJ....162..185A 44           X         1 22 3 UV fluorescence traces gas and Lyα evolution in protoplanetary disks. ARULANANTHAM N., FRANCE K., HOADLEY K., et al.
2021A&A...654A.109K viz 44           X         1 28 9 The first interferometric survey of massive YSOs in the K-band. Hot dust, ionised gas, and binarity at au scales. KOUMPIA E., DE WIT W.-J., OUDMAIJER R.D., 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...921...72M viz 17       D               1 277 37 Bridging the gap between protoplanetary and debris disks: separate evolution of millimeter and micrometer-sized Dust. MICHEL A., VAN DER MAREL N. and MATTHEWS B.C.
2021ApJ...921...86F 44           X         1 25 ~ Detection of H2 in the TWA 7 system: a probable circumstellar origin. FLAGG L., JOHNS-KRULL C.M., FRANCE K., et al.
2022MNRAS.509.2780J 422       D     X   F     9 20 24 A super-resolution analysis of the DSHARP survey: substructure is common in the inner 30 au. JENNINGS J., BOOTH R.A., TAZZARI M., et al.
2022A&A...657A..69F 358           X C       7 9 8 Dust entrainment in photoevaporative winds: Densities and imaging. FRANZ R., ERCOLANO B., CASASSUS S., et al.
2022A&A...658A.137G 90           X         2 81 23 A SPHERE survey of self-shadowed planet-forming disks. GARUFI A., DOMINIK C., GINSKI C., et al.
2022MNRAS.511.2453P 18       D               1 817 ~ Taxonomy of protoplanetary discs observed with ALMA. PARKER R., WARD-THOMPSON D. and KIRK J.
2022MNRAS.512.3538Z 179           X   F     3 29 9 Stellar multiplicity affects the correlation between protoplanetary disc masses and accretion rates: binaries explain high accretors in Upper Sco. ZAGARIA F., CLARKE C.J., ROSOTTI G.P., et al.
2022A&A...659A..90F 47           X         1 2 4 Dust entrainment in photoevaporative winds: Synthetic observations of transition disks. FRANZ R., PICOGNA G., ERCOLANO B., et al.
2022ApJ...931....6L 332       D     X C       7 59 23 Gas Disk Sizes from CO Line Observations: A Test of Angular Momentum Evolution. LONG F., ANDREWS S.M., ROSOTTI G., et al.
2022ApJ...932..114L 941     A D     X C       21 23 16 CO Line Emission Surfaces and Vertical Structure in Midinclination Protoplanetary Disks. LAW C.J., CRYSTIAN S., TEAGUE R., et al.
2022A&A...663A..98T viz 18       D               1 511 23 The protoplanetary disk population in the ρ-Ophiuchi region L1688 and the time evolution of Class II YSOs. TESTI L., NATTA A., MANARA C.F., et al.
2022ApJS..263...14C viz 18       D               1 434 2 A Population of Dipper Stars from the Transiting Exoplanet Survey Satellite Mission. CAPISTRANT B.K., SOARES-FURTADO M., VANDERBURG A., et al.
2022A&A...666A.188E 18       D               2 122 4 The He I λ10830 Å line as a probe of winds and accretion in young stars in Lupus and Upper Scorpius. ERKAL J., MANARA C.F., SCHNEIDER P.C., et al.
2023ApJ...942....4X 47           X         1 74 5 Measuring the Dust Masses of Protoplanetary Disks in Lupus with ALMA: Evidence That Disks Can Be Optically Thick at 3 mm. XIN Z., ESPAILLAT C.C., RILINGER A.M., et al.
2023A&A...669A.145C viz 112       D     X         3 66 3 ISPY: NACO Imaging Survey for Planets around Young stars The demographics of forming planets embedded in protoplanetary disks,. CUGNO G., PEARCE T.D., LAUNHARDT R., et al.
2023ApJ...944..185A 112       D       C       4 65 2 Lyα Scattering Models Trace Accretion and Outflow Kinematics in T Tauri Systems. ARULANANTHAM N., GRONKE M., FIORELLINO E., et al.
2023A&A...671A..82R viz 47           X         1 27 3 Disk Evolution Study Through Imaging of Nearby Young Stars (DESTINYS): Characterization of the young star T CrA and its circumstellar environment,. RIGLIACO E., GRATTON R., CEPPI S., et al.
2023ApJ...947L...6G 93           X         2 7 6 MINDS. The Detection of 13CO2 with JWST-MIRI Indicates Abundant CO2 in a Protoplanetary Disk. GRANT S.L., VAN DISHOECK E.F., TABONE B., et al.
2023ApJ...948...57P 19       D               2 115 ~ An SMA Survey of Chemistry in Disks Around Herbig AeBe Stars. PEGUES J., OBERG K.I., QI C., et al.
2023ApJ...948...60L 93             C       1 31 4 Mapping Protoplanetary Disk Vertical Structure with CO Isotopologue Line Emission. LAW C.J., TEAGUE R., OBERG K.I., et al.
2023A&A...672A.145Z 47           X         1 24 1 Disk Evolution Study Through Imaging of Nearby Young Stars (DESTINYS): Diverse outcomes of binary-disk interactions. ZHANG Y., GINSKI C., HUANG J., et al.
2023A&A...672L..15Z 93             C       1 14 1 Testing protoplanetary disc evolution with CO fluxes A proof of concept in Lupus and Upper Sco. ZAGARIA F., FACCHINI S., MIOTELLO A., et al.
2023ApJ...952..108Z 93             C       1 50 ~ Substructures in Compact Disks of the Taurus Star-forming Region. ZHANG S., KALSCHEUR M., LONG F., et al.
2023MNRAS.524.3184P 812       D S   X C F     15 22 ~ Constraining turbulence in protoplanetary discs using the gap contrast: an application to the DSHARP sample. PIZZATI E., ROSOTTI G.P. and TABONE B.
2023AJ....166...67F 19       D               2 76 ~ The Radial Distribution and Excitation of H2 around Young Stars in the HST-ULLYSES Survey. FRANCE K., ARULANANTHAM N., MALONEY E., et al.
2023ApJ...953...92G 532       D     X C       11 15 ~ Observed Polarized Scattered Light Phase Functions of Planet-forming Disks. GINSKI C., TAZAKI R., DOMINIK C., et al.
2023ApJ...954...41T 19       D               1 68 ~ How Large Is a Disk-What Do Protoplanetary Disk Gas Sizes Really Mean? TRAPMAN L., ROSOTTI G., ZHANG K., et al.

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