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IRAS 16051-3820 , the SIMBAD biblio (69 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.04.28CEST00:27:13 |
Bibcode/DOI | Score |
in Title|Abstract| Keywords |
in a table | in teXt, Caption, ... | Nb occurence | Nb objects in ref |
Citations (from ADS) |
Title | First 3 Authors |
---|---|---|---|---|---|---|---|---|---|
1996PASJ...48..489T | 62 | 63 | 13CO (J=1-0) observations of the Lupus molecular clouds. | TACHIHARA K., DOBASHI K., MIZUNO A., et al. | |||||
1997A&AS..123..329K | 382 | 114 | New "weak-line"-T Tauri stars in Lupus. | KRAUTTER J., WICHMANN R., SCHMITT J.H.M.M., et al. | |||||
2007ApJ...667..288C | 31 | 28 | The Spitzer c2d Survey of large, nearby, interstellar clouds. IV. Lupus observed with MIPS. | CHAPMAN N.L., LAI S.-P., MUNDY L.G., et al. | |||||
2008ApJS..177..551M | 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. | |||
2011A&A...529A.108L | 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. | ||
2014A&A...572A..62A | 16 | D | 2 | 158 | 21 | POISSON project. III. Investigating the evolution of the mass accretion rate. | ANTONIUCCI S., GARCIA LOPEZ R., NISINI B., 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 | 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. | ||
2016ApJS..225...15C | 56 | D | X | 2 | 1758 | 60 | A comprehensive census of nearby infrared excess stars. | COTTEN T.H. and SONG I. | |
2016ApJ...828...46A | 100 | D | X | 3 | 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 | 16 | D | 1 | 427 | 330 | A steeper than linear disk mass-stellar mass scaling relation. | PASCUCCI I., TESTI L., HERCZEG G.J., et al. | ||
2017A&A...599A.113M | 42 | X | 1 | 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 | 627 | D | X C | 15 | 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 | 341 | D | X C | 8 | 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. | |
2017ApJ...844...66M | 16 | D | 4 | 225 | 7 | Angular momentum evolution of young stars in the nearby Scorpius-Centaurus OB association. | MELLON S.N., MAMAJEK E.E., OBERST T.E., et al. | ||
2017ApJ...844...99L | 41 | X | 1 | 131 | 98 | An ALMA survey of CO isotopologue emission from protoplanetary disks in Chamaeleon I. | LONG F., HERCZEG G.J., PASCUCCI I., et al. | ||
2017ApJ...847...31M | 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 | 99 | D | X | 3 | 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. | |||||
2018A&A...609A.116R | 16 | D | 1 | 143018 | 65 | Empirical photometric calibration of the Gaia red clump: Colours, effective temperature, and absolute magnitude. | RUIZ-DERN L., BABUSIAUX C., ARENOU F., et al. | ||
2018ApJ...854..177V | 388 | D | X C | 9 | 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...859...21A | 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...859...32P | 182 | D | X | 5 | 48 | 76 | Homogeneous analysis of the dust morphology of transition disks observed with ALMA: investigating (dust) trapping and the origin of the cavities. | PINILLA P., TAZZARI M., PASCUCCI I., et al. | |
2018ApJ...860...43G | 16 | D | 1 | 739 | 55 | BANYAN. XII. New members of nearby young associations from Gaia-Tycho data. | GAGNE J., ROY-LOUBIER O., FAHERTY J.K., et al. | ||
2018A&A...616A.100Y | 922 | D | X C | 22 | 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 | 99 | D | X | 3 | 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 | 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 | 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. | ||
2018MNRAS.480.5099K | 16 | D | 1 | 126 | 6 | Multiplicity of disc-bearing stars in Upper Scorpius and Upper Centaurus-Lupus. | KURUWITA R.L., IRELAND M., RIZZUTO A., 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 | 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 | 84 | X | 2 | 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...624A...7V | 2534 | T A | S X C | 58 | 31 | 42 |
Spatial segregation of dust grains in transition disks. SPHERE observations of 2MASS J16083070-3828268 and RXJ1852.3-3700. |
VILLENAVE M., BENISTY M., DENT W.R.F., et al. | |
2019A&A...629A.108A | 167 | X | 4 | 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. | |||||
2020AJ....159..168A | 783 | D | X C | 18 | 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...895..126H | 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. | ||
2020ApJ...899...55A | 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. | ||
2020A&A...640A...5T | 18 | D | 1 | 38 | 47 | Observed sizes of planet-forming disks trace viscous spreading. | TRAPMAN L., ROSOTTI G., BOSMAN A.D., et al. | ||
2020AJ....160..186L | 17 | D | 1 | 235 | 15 | A Gaia survey for young stars associated with the Lupus clouds. | LUHMAN K.L. | ||
2020MNRAS.498.5972N | 17 | D | 3 | 41 | 17 | A PSF-based Approach to TESS High quality data Of Stellar clusters (PATHOS) - III. Exploring the properties of young associations through their variables, dippers, and candidate exoplanets. | NARDIELLO D. | ||
2020A&A...643A.148G | 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. | ||
2021AJ....161...33V | 18 | D | 1 | 44 | 65 | On the diversity of asymmetries in gapped protoplanetary disks. | VAN DER MAREL N., BIRNSTIEL T., GARUFI A., et al. | ||
2021MNRAS.500.4878L | 44 | X | 1 | 58 | 20 | ALMA survey of Lupus class III stars: Early planetesimal belt formation and rapid disc dispersal. | LOVELL J.B., WYATT M.C., ANSDELL M., 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. | ||
2021MNRAS.502.5779N | 801 | D | X C | 18 | 37 | 15 | Dust traps and the formation of cavities in transition discs: a millimetre to sub-millimetre comparison survey. | NORFOLK B.J., MADDISON S.T., PINTE C., et al. | |
2021A&A...647A.118L | 220 | X C | 4 | 5 | 10 | Exploring HNC and HCN line emission as probes of the protoplanetary disk temperature. | LONG F., BOSMAN A.D., CAZZOLETTI P., et al. | ||
2021A&A...649A..19S | 104 | D | F | 3 | 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. | |
2021AJ....162...28V | 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 | 17 | D | 4 | 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 | 279 | D | X | 7 | 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. | |
2021MNRAS.507..818T | 132 | X | 3 | 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. | ||
2021ApJ...921...72M | 61 | D | X | 2 | 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. | |
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. | ||
2022ApJ...931....6L | 18 | D | 3 | 59 | 23 | Gas Disk Sizes from CO Line Observations: A Test of Angular Momentum Evolution. | LONG F., ANDREWS S.M., ROSOTTI G., et al. | ||
2022A&A...663A..98T | 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. | ||
2022ApJ...937..104M | 45 | X | 1 | 11 | 5 | A Millimeter-multiwavelength Continuum Study of VLA 1623 West. | MICHEL A., SADAVOY S.I., SHEEHAN P.D., 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 | 392 | D | S X C | 7 | 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 | 252 | D | X C | 5 | 65 | 2 | Lyα Scattering Models Trace Accretion and Outflow Kinematics in T Tauri Systems. | ARULANANTHAM N., GRONKE M., FIORELLINO E., et al. | |
2023ApJ...953..183P | 19 | D | X * | 13 | 37 | ~ | Large Myr-old Disks Are Not Severely Depleted of Gas-phase CO or Carbon. | PASCUCCI I., SKINNER B.N., DENG D., et al. | |
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...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. |