NAME lam Ori Cloud , the SIMBAD biblio

NAME lam Ori Cloud , the SIMBAD biblio (58 results) C.D.S. - SIMBAD4 rel 1.8 - 2023.09.22CEST08:09:54

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Title First 3 Authors
1988ApJ...331..974K 2 4 34 Small-scale structure in the interstellar medium. I. Discovery of very small molecular clouds toward alpha Orionis. KNAPP G.R. and BOWERS P.F.
1995ApJ...441L..93H 1 11 37 Large HCO+ and HCN abundances in the translucent cloud towards PKS 0528+134. HOGERHEIJDE M.R., DE GEUS E.J., SPAANS M., et al.
1998ApJ...507..241P 117 74 Origin and evolution of the Cepheus bubble. PATEL N.A., GOLDSMITH P.F., HEYER M.H., et al.
1998PASA...15...70L 11 7 CO observations of the lambda-Orionis ring. LANG W.J. and MASHEDER M.R.W.
1999AJ....118.2409D viz 87 48 A WIYN lithium survey for young stars in the λ Orionis star-forming region. DOLAN C.J. and MATHIEU R.D.
1999Ap.....42..234N 18 0 T associations in X-rays. NEUHAEUSER R. and HAMBARYAN V.
2001AJ....121.2124D viz 366 93 The spatial distribution of the λ Orionis pre-main-sequence population. DOLAN C.J. and MATHIEU R.D.
2001ApJ...562..852H 7 21 503 Rapid formation of molecular clouds and stars in the solar neighborhood. HARTMANN L., BALLESTEROS-PAREDES J. and BERGIN E.A.
2002AJ....123..387D viz 74 T                   9 44 A photometric study of the young stellar population throughout the λ Orionis star-forming region. DOLAN C.J. and MATHIEU R.D.
2002AJ....123.1701T 51 77 Spectroscopic binaries in a sample of ROSAT X-ray sources south of the Taurus molecular clouds. TORRES G., NEUHAEUSER R. and GUENTHER E.W.
2002ApJ...581.1194P viz 231 98 Star formation in space and time: Taurus-Auriga. PALLA F. and STAHLER S.W.
2003A&A...405..149F 48 75 Further identification of ROSAT all-sky survey sources in Orion. FRASCA A., ALCALA J.M., COVINO E., et al.
2003AJ....126.1423K viz 1345 26 Observations of star-forming regions with the Midcourse Space Experiment. KRAEMER K.E., SHIPMAN R.F., PRICE S.D., et al.
2005MNRAS.360.1506K 1 72 189 The initial conditions of isolated star formation - VI. SCUBA mapping of pre-stellar cores. KIRK J.M., WARD-THOMPSON D. and ANDRE P.
2007ApJ...657..884L viz 133 52 Triggered star formation by massive stars. LEE H.-T. and CHEN W.P.
2007AJ....133.1528C viz 209 48 Infrared nebulae around young stellar objects. CONNELLEY M.S., REIPURTH B. and TOKUNAGA A.T.
2007MNRAS.378.1447F 90       D         F     3 18 33 A large-scale extinction map of the Galactic Anticentre from 2MASS. FROEBRICH D., MURPHY G.C., SMITH M.D., et al.
2008ApJ...678L..29R 38           X         1 9 5 Global far-ultraviolet image of the Eridanus superbubble observed by FIMS/SPEAR. RYU K., MIN K.W., SEON K.-I., et al.
2009AJ....137.3487M 114           X         3 13 6 The highly eccentric Pre-Main-Sequence spectroscopic binary RX J0529.3+1210. MACE G.N., PRATO L., WASSERMAN L.H., et al.
2009ApJ...697..493B 38           X         1 10 2 HDE 245059: a weak-lined T Tauri binary revealed by Chandra and Keck. BALDOVIN-SAAVEDRA C., AUDARD M., DUCHENE G., et al.
2010ApJ...718..105D 169       D       C F     3 33 43 On the temporal evolution of the stellar mass function in galactic clusters. DE MARCHI G., PARESCE F. and PORTEGIES ZWART S.
2010MNRAS.406.1350F 93       D     X         3 21 74 The structure of molecular clouds - II. Column density and mass distributions. FROEBRICH D. and ROWLES J.
2011MNRAS.416..294R 209       D     X         6 20 4 The structure of molecular clouds – III. A link between cloud structure and star formation mode. ROWLES J. and FROEBRICH D.
2011A&A...535A..16L 905       D     X C F     22 70 108 2MASS wide field extinction maps. IV. The Orion, Monoceros R2, Rosette, and Canis Major star forming regions. LOMBARDI M., ALVES J. and LADA C.J.
2011A&A...536A..63B viz 216 64 Spectroscopy of very low mass stars and brown dwarfs in the lambda Orionis star forming region. I. Enlarging the census down to the planetary mass domain in Collinder 69. BAYO A., BARRADO D., STAUFFER J., et al.
2008HSFR1.B....757M 76 T                   1 2 0 The λ Orionis star forming region. MATHIEU R.D.
2015A&A...576A..52R 6 27 174 Protoplanetary disk lifetimes vs. stellar mass and possible implications for giant planet populations. RIBAS A., BOUY H. and MERIN B.
2018ApJS..236...51Y viz 3327     A     X C       79 210 23 Planck Cold Clumps in the λ Orionis complex. II. Environmental effects on core formation. YI H.-W., LEE J.-E., LIU T., et al.
2019MNRAS.486..462P 43           X         1 31 ~ QUIJOTE scientific results - III. Microwave spectrum of intensity and polarization in the Taurus Molecular Cloud complex and L1527. POIDEVIN F., RUBINO-MARTIN J.A., DICKINSON C., et al.
2019ApJ...877...93C 43           X         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.
2019ApJ...879..125Z 359       D     X         9 100 171 A large catalog of accurate distances to local molecular clouds: the Gaia DR2 edition. ZUCKER C., SPEAGLE J.S., SCHLAFLY E.F., et al.
2019A&A...631A..52J 85           X         2 33 ~ Gas shells and magnetic fields in the Orion-Eridanus superbubble. JOUBAUD T., GRENIER I.A., BALLET J., et al.
2020Natur.578..237A 89               F     1 39 87 A Galactic-scale gas wave in the solar neighbourhood. ALVES J., ZUCKER C., GOODMAN A.A., et al.
2020MNRAS.493..351C viz 237       D     X         6 18 39 A large catalogue of molecular clouds with accurate distances within 4 kpc of the Galactic disc. CHEN B.-Q., LI G.-X., YUAN H.-B., et al.
2020ApJS..249...33K viz 1828     A D S   X C       41 47 ~ Molecular cloud cores with a high deuterium fraction: Nobeyama single-pointing survey. KIM G., TATEMATSU K., LIU T., et al.
2019PASJ...71..123B 2111 T   A     X C       48 7 ~ Investigation of the origin of the anomalous microwave emission in
Lambda Orionis.
2020ApJS..251...20D viz 409       D     X C       9 164 17 ALMA survey of Orion Planck Galactic Cold Clumps (ALMASOP). II. Survey overview: a first look at 1.3 mm continuum maps and molecular outflows. DUTTA S., LEE C.-F., LIU T., et al.
2021MNRAS.501.5938R 296     A     X C       6 29 ~ HH 175: a giant Herbig-Haro flow emanating from a multiple protostar. REIPURTH B. and FRIBERG P.
2021ApJS..254...14Y viz 5645 T   A D     X C       125 100 8 Planck cold clumps in the λ Orionis complex. III. A chemical probe of stellar feedback on cores in the λ Orionis cloud. YI H.-W., LEE J.-E., KIM K.-T., et al.
2021A&A...650A.168P 430 T   A     X         9 19 6 Linking ice and gas in the λ Orionis Barnard 35A cloud. PEROTTI G., JORGENSEN J.K., FRASER H.J., et al.
2021A&A...653A..63S 18       D               2 81 17 Bird's eye view of molecular clouds in the Milky Way. I. Column density and star formation from sub-parsec to kiloparsec scales. SPILKER A., KAINULAINEN J. and ORKISZ J.
2021A&A...654A.123M 45           X         1 10 3 Characterization of dense Planck clumps observed with Herschel and SCUBA-2. MANNFORS E., JUVELA M., BRONFMAN L., et al.
2021ApJ...921...72M viz 45           X         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.
2022A&A...658A.131Z 327     A D     X         8 23 1 Chemical exploration of Galactic cold cores. ZHOU C., VASTEL C., MONTILLAUD J., et al.
2022RAA....22a5004G 93           X         2 9 2 GGCHEMPY: A Pure Python-based Gas-grain Chemical Code for Efficient Simulation of Interstellar Chemistry. GE J.
2022ApJ...927..218H 112       D     X         3 41 11 ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): A Hot Corino Survey toward Protostellar Cores in the Orion Cloud. HSU S.-Y., LIU S.-Y., LIU T., et al.
2022ApJ...929...23H 95           X         2 6 12 Polycyclic Aromatic Hydrocarbons, Anomalous Microwave Emission, and their Connection to the Cold Neutral Medium. HENSLEY B.S., MURRAY C.E. and DODICI M.
2022ApJ...934....7H 47           X         1 18 13 Turbulence in Milky Way Star-forming Regions Traced by Young Stars and Gas. HA T., LI Y., KOUNKEL M., et al.
2022MNRAS.515.5449M 1232       D     X   F     26 8 ~ The evolution of protoplanetary disc radii and disc masses in star-forming regions. MARCHINGTON B. and PARKER R.J.
2022ApJ...939L..10P 19       D               1 68 10 Most Planets Might Have More than 5 Myr of Time to Form. PFALZNER S., DEHGHANI S. and MICHEL A.
2022A&A...667A.110S 19       D               1 68 ~ Bird's eye view of molecular clouds in the Milky Way II. Cloud kinematics from subparsec to kiloparsec scales. SPILKER A., KAINULAINEN J. and ORKISZ J.
2022A&A...667A.137B viz 47           X         1 22 ~ Ammonia characterisation of dense cores in the Rosette Molecular Cloud. BOGNER R., CSENGERI T., MONTILLAUD J., et al.
2023ApJ...945..156S 50           X         1 13 ~ ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): Density Structure of Centrally Concentrated Prestellar Cores from Multiscale Observations. SAHU D., LIU S.-Y., JOHNSTONE D., et al.
2023ApJS..265...59Z 20       D               2 84 1 Distances to Nearby Molecular Clouds Traced by Young Stars. ZHANG M.
2023ApJ...947...66F 380     A     X C       7 35 3 A 3D View of Orion. I. Barnard's Loop. FOLEY M.M., GOODMAN A., ZUCKER C., et al.
2023ApJ...948...55H 201           X C       3 12 22 The Astrodust+PAH Model: A Unified Description of the Extinction, Emission, and Polarization from Dust in the Diffuse Interstellar Medium. HENSLEY B.S. and DRAINE B.T.
2023MNRAS.519..228D 270       D     X         6 105 2 The three-dimensional structure of galactic molecular cloud complexes out to 2.5 kpc. DHARMAWARDENA T.E., BAILER-JONES C.A.L., FOUESNEAU M., et al.
2023A&A...674A..21M viz 20       D               1 39 8 Gaia Data Release 3 Validating the classification of variable young stellar object candidates. MARTON G., ABRAHAM P., RIMOLDINI L., et al.

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