LDN 57 , the SIMBAD biblio

LDN 57 , the SIMBAD biblio (283 results) C.D.S. - SIMBAD4 rel 1.7 - 2020.07.04CEST07:57:59

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Title First 3 Authors
2020A&A...633A.132H 500         O X C       9 7 ~ AVIATOR: Morphological object reconstruction in 3D. An application to dense cores. HASENBERGER B. and ALVES J.
2020A&A...635A..34K viz 50           X         1 29 ~ Properties of the dense core population in Orion B as seen by the Herschel Gould Belt survey. KONYVES V., ANDRE P., ARZOUMANIAN D., et al.
2020A&A...636A..32B 50           X         1 4 ~ Novel approach to distinguish between vacuum UV-induced ice photodesorption and photoconversion. Investigation of CH4, CH3OH, and CH3CN. BULAK M., PAARDEKOOPER D.M., FEDOSEEV G., et al.
2020ApJ...890...14K 50           X         1 4 ~ Distortion of magnetic fields in the dense core CB81 (L1774, Pipe 42) in the Pipe Nebula. KANDORI R., TAMURA M., SAITO M., et al.
2020ApJ...891...55K 300           X         6 4 ~ Distortion of magnetic fields in Barnard 335. KANDORI R., SAITO M., TAMURA M., et al.
2020ApJ...892..128K 50           X         1 9 ~ Distortion of magnetic fields in BHR 71. KANDORI R., TAMURA M., SAITO M., et al.
2020ApJ...896..163M 50           X         1 16 ~ Magnetic field structure in spheroidal star-forming clouds. II. Estimating field structure from observed maps. MYERS P.C., STEPHENS I.W., AUDDY S., et al.
2019A&A...628A..67E viz 401     A     X C       8 11 ~ Updated extraction of the APOGEE 1.5273 µm diffuse interstellar band: a Planck view on the carrier depletion in dense cores. ELYAJOURI M. and LALLEMENT R.
2018A&A...610A...9G viz 134           X         3 23 ~ The first frost in the Pipe Nebula. GOTO M., BAILEY J.D., HOCUK S., et al.
2018A&A...615L..16F 90           X         2 9 1 Depletion of 15N in the center of L1544: Early transition from atomic to molecular nitrogen? FURUYA K., WATANABE Y., SAKAI T., et al.
2018A&A...617A.100B 134           X   F     2 34 4 Fragmentation and disk formation during high-mass star formation. IRAM NOEMA (Northern Extended Millimeter Array) large program CORE. BEUTHER H., MOTTRAM J.C., AHMADI A., et al.
2018A&A...618A.163J viz 90           X         2 14 ~ Magnetic fields in Bok globules: multi-wavelength polarimetry as tracer across large spatial scales. JORQUERA S. and BERTRANG G.H.-M.
2018A&A...620A..24H viz 224           X         5 10 ~ The HP2 Survey. IV. The Pipe nebula: Effective dust temperatures in dense cores. HASENBERGER B., LOMBARDI M., ALVES J., et al.
2018A&A...620A..62G viz 90           X         2 19 ~ The Serpens filament at the onset of slightly supercritical collapse. GONG Y., LI G.X., MAO R.Q., et al.
2018A&A...620L...4P 923     A S   X C       19 6 ~ Synchrotron emission in molecular cloud cores: the SKA view. PADOVANI M. and GALLI D.
2018AJ....156..248T 45           X         1 10 ~ Kinetic tomography. II. A second method for mapping the velocity field of the Milky Way interstellar medium and a comparison with spiral structure models. TCHERNYSHYOV K., PEEK J.E.G. and ZASOWSKI G.
2018ApJ...852..102S viz 779       D S   X C       16 81 1 Intensity-corrected Herschel observations of nearby isolated low-mass clouds. SADAVOY S.I., KETO E., BOURKE T.L., et al.
2018ApJ...856..147O 45           X         1 28 2 Gravitationally unstable condensations revealed by ALMA in the TUKH122 prestellar core in the Orion A cloud. OHASHI S., SANHUEZA P., SAKAI N., et al.
2018ApJ...864...82D 45           X         1 4 ~ Spectral tomography for the line-of-sight structures of the Taurus Molecular Cloud 1. DOBASHI K., SHIMOIKURA T., NAKAMURA F., et al.
2018MNRAS.473.2441L 3432     A S   X C F     74 6 1 Lane-Emden equation with inertial force and general polytropic dynamic model for molecular cloud cores. LI D., LOU Y.-Q. and ESIMBEK J.
2018MNRAS.475..121S 45           X         1 20 9 Magnetic tension and instabilities in the Orion A integral-shaped filament. SCHLEICHER D.R.G. and STUTZ A.
2018MNRAS.476.4994F 45           X         1 8 5 Tracing the atomic nitrogen abundance in star-forming regions with ammonia deuteration. FURUYA K. and PERSSON M.V.
2018MNRAS.478.3467S 45           X         1 24 ~ Probing the 9.7 µm interstellar silicate extinction profile through the Spitzer/IRS spectroscopy of OB stars. SHAO Z., JIANG B.W., LI A., et al.
2018MNRAS.478L.110A 45           X         1 6 1 Primordial mass and density segregation in a young molecular cloud. ALFARO E.J. and ROMAN-ZUNIGA C.G.
2018PASJ...70S..54S 45           X         1 2 ~ The effect of photoionizing feedback on star formation in isolated and colliding clouds. SHIMA K., TASKER E.J., FEDERRATH C., et al.
2017A&A...598A..76Z viz 44           X         1 61 9 A multiwavelength observation and investigation of six infrared dark clouds. ZHANG C.-P., YUAN J.-H., LI G.-X., et al.
2017A&A...601A.113S 45           X         1 2 3 On the stability of nonisothermal Bonnor-Ebert spheres. III. The role of chemistry in core stabilization. SIPILA O., CASELLI P. and JUVELA M.
2017A&A...604A..58H 653           X C       14 8 7 Parameterizing the interstellar dust temperature. HOCUK S., SZUCS L., CASELLI P., et al.
2017A&A...605A..99T viz 87           X         2 15 2 Dust properties of the cometary globule Barnard 207 (LDN 1489). TOGI A., WITT A.N. and JOHN D.S.
2017A&A...605L..10E 766 T   A     X C       16 6 2 The 15 273Å diffuse interstellar band in the dark cloud
Barnard 68.
2017A&A...606A..82S viz 44           X         1 9 8 The observed chemical structure of L1544. SPEZZANO S., CASELLI P., BIZZOCCHI L., et al.
2017ApJ...839..103D 44           X         1 3 2 AGN outflow shocks on Bonnor-Ebert spheres. DUGAN Z., GAIBLER V., BIERI R., et al.
2017ApJ...840...55B 44           X         1 4 ~ Radiative transfer in a translucent cloud illuminated by an extended background source. BIGANZOLI D., POTENZA M.A.C. and ROBBERTO M.
2017ApJ...850....3K 44           X         1 38 2 The Green Bank Ammonia Survey: observations of hierarchical dense gas structures in Cepheus-L1251. KEOWN J., DI FRANCESCO J., KIRK H., et al.
2016A&A...588A.104G viz 43           X         1 221 4 Molecular clouds and star formation toward the Galactic plane within 216.25deg ≤ l ≤ 218.75deg and -0.75deg ≤ b ≤ 1.25deg. GONG Y., MAO R.Q., FANG M., et al.
2016A&A...590A...2S 45   K                 1 14 40 Slingshot mechanism in Orion: Kinematic evidence for ejection of protostars by filaments. STUTZ A.M. and GOULD A.
2016A&A...592A..61L viz 1251       D     X C       29 23 10 Earliest phases of star formation (EPoS) Dust temperature distributions in isolated starless cores. LIPPOK N., LAUNHARDT R., HENNING T., et al.
2016A&A...593A...6S 299           X         7 5 6 Prestellar core modeling in the presence of a filament. The dense heart of L1689B. STEINACKER J., BACMANN A., HENNING T., et al.
2016A&A...594A..28P viz 43           X         1 13263 79 Planck 2015 results. XXVIII. The Planck Catalogue of Galactic cold clumps. PLANCK COLLABORATION, ADE P.A.R., AGHANIM N., et al.
2016ApJ...822...10K 43           X         1 12 3 Geometry-independent determination of radial density distributions in molecular cloud cores and other astronomical objects. KRCO M. and GOLDSMITH P.F.
2016ApJ...824...85K 85           X         2 23 1 Dense molecular cores being externally heated. KIM G., LEE C.W., GOPINATHAN M., et al.
2016ApJ...825...91L viz 426           X C       9 55 6 Protostars at low extinction in Orion A. LEWIS J.A. and LADA C.J.
2016ApJ...826...26T 43           X         1 14 8 Revealing a detailed mass distribution of a high-density core MC27/L1521F in Taurus with ALMA. TOKUDA K., ONISHI T., MATSUMOTO T., et al.
2016ApJ...830..102W 43           X         1 15 2 A search for O2 in CO-depleted molecular cloud cores with Herschel. WIRSTROM E.S., CHARNLEY S.B., CORDINER M.A., et al.
2016ApJ...830..151S 85           X         2 3 2 On the inference of the cosmic-ray ionization rate ζ from the HCO+-to-DCO+ abundance ratio: the effect of nuclear spin. SHINGLEDECKER C.N., BERGNER J.B., LE GAL R., et al.
2016ApJ...832....1R 812           X C       18 2 6 Enabling star formation via spontaneous molecular dipole orientation in icy solids. ROSU-FINSEN A., LASNE J., CASSIDY A., et al.
2016ApJ...832..205S 43           X         1 9 2 Discovery of infalling motion with rotation of the cluster-forming clump S235AB and its implication to the clump structures. SHIMOIKURA T., DOBASHI K., MATSUMOTO T., et al.
2016ApJ...833..204F 43           X         1 16 14 The fragmentation and stability of hierarchical structure in Serpens South. FRIESEN R.K., BOURKE T.L., DI FRANCESCO J., et al.
2016MNRAS.458..789T 43           X         1 13 4 Chemistry as a diagnostic of prestellar core geometry. TRITSIS A., TASSIS K. and WILLACY K.
2015A&A...574L...5P 89         O X         2 3 17 Can we trace very cold dust from its emission alone? PAGANI L., LEFEVRE C., JUVELA M., et al.
2015A&A...580A.114F 862     A S   X         20 9 11 Smoke in the Pipe Nebula: dust emission and grain growth in the starless core FeSt 1-457. FORBRICH J., LADA C.J., LOMBARDI M., et al.
2015A&A...584A..91K viz 167           X C       3 770 119 A census of dense cores in the Aquila cloud complex: SPIRE/PACS observations from the Herschel Gould Belt survey. KOENYVES V., ANDRE Ph., MEN'SHCHIKOV A., et al.
2015ApJ...799...49H 42           X         1 16 15 Formation of hydroxylamine on dust grains via ammonia oxidation. HE J., VIDALI G., LEMAIRE J.-L., et al.
2015ApJ...804...98K 47           X         1 6 33 The deuterium fractionation timescale in dense cloud cores: a parameter space exploration. KONG S., CASELLI P., TAN J.C., et al.
2015ApJ...806...38S 42           X         1 19 4 The kinematic and chemical properties of a potential core-forming clump: Perseus B1-E. SADAVOY S.I., SHIRLEY Y., DI FRANCESCO J., et al.
2015ApJ...806..196K 1187   K   D     X C       28 9 8 Ice chemistry in starless molecular cores. KALVANS J.
2015ApJ...806..274L 42           X         1 8 1 Is the dust cloud around lambda Orionis a ring or a shell, or both? LEE D., SEON K.-I. and JO Y.-S.
2015ApJS..217....7S viz 42           X         1 809 12 Catalog of dense cores in the Orion A giant molecular cloud. SHIMAJIRI Y., KITAMURA Y., NAKAMURA F., et al.
2015MNRAS.449.3183Z 110     A     X         3 1 1 Sound-triggered collapse of stably oscillating low-mass cores in a two-phase interstellar medium. ZHANG U.-H., SCHIVE H.-Y. and CHIUEH T.
2015MNRAS.452.3319N 44           X         1 1 2 The chemical stability of CH3OH on cold interstellar grains: heat-induced dehydrogenation processes of methanol. NOURRY S. and KRIM L.
2015MNRAS.454.2815L 87           X         2 3 9 General polytropic dynamic cylinder under self-gravity. LOU Y.-Q.
2015NewA...40...49B 100       D       C       3 6 3 A theoretical model for electromagnetic characterization of a spherical dust molecular cloud equilibrium structure. BORAH B. and KARMAKAR P.K.
2014A&A...562A.138R 2277 T K A D S   X C       53 4 55 Reconstructing the density and temperature structure of prestellar cores from Herschel data: A case study for
B68 and L1689B.
2014A&A...563A..97G viz 46           X         1 9 47 Chemical evolution in the early phases of massive star formation. I. GERNER T., BEUTHER H., SEMENOV D., et al.
2014A&A...572A..20L 16       D   O           1 291 19 Dust properties inside molecular clouds from coreshine modeling and observations. LEFEVRE C., PAGANI L., JUVELA M., et al.
2014ApJ...790...70K 45           X         1 3 13 On the role of ambient environments in the collapse of bonnor-ebert spheres. KAMINSKI E., FRANK A., CARROLL J., et al.
2014ApJ...790..129C 782       S   X         18 30 5 Physical and chemical characteristics of L1689-SMM16, an oscillating prestellar core in Ophiuchus. CHITSAZZADEH S., DI FRANCESCO J., SCHNEE S., et al.
2014ApJ...794..123C 50           X         1 4 36 Exclusion of cosmic rays in protoplanetary disks. II. Chemical gradients and observational signatures. CLEEVES L.I., BERGIN E.A. and ADAMS F.C.
2014ApJ...795...26O 43           X         1 3 7 Photon-dominated region modeling of the [C I], [C II], and CO line emission from a boundary in the Taurus molecular cloud. ORR M.E., PINEDA J.L. and GOLDSMITH P.F.
2014ApJ...797..113S 43           X         1 6 12 The effects of initial abundances on nitrogen in protoplanetary disks. SCHWARZ K.R. and BERGIN E.A.
2014MNRAS.441.1468K 42           X         1 3 4 From filaments to oscillating starless cores. KETO E. and BURKERT A.
2014MNRAS.445.1170G 41           X         1 53 6 Early-stage star-forming cloud cores in Galactic Legacy Infrared Mid-Plane Survey (GLIMPSE) extended green objects (EGOs) as traced by organic species. GE J.X., HE J.H., CHEN X., et al.
2013A&A...550A.127T 47           X         1 8 50 Water ice deuteration: a tracer of the chemical history of protostars. TAQUET V., PETERS P.S., KAHANE C., et al.
2013A&A...551A..38P 87           X         2 5 33 Ortho-H2 and the age of prestellar cores. PAGANI L., LESAFFRE P., JORFI M., et al.
2013A&A...551A..98L 1236       D     X C       30 66 91 The Earliest Phases of Star Formation (EPoS): a Herschel key project. The thermal structure of low-mass molecular cloud cores. LAUNHARDT R., STUTZ A.M., SCHMIEDEKE A., et al.
2013A&A...552A..93H 82           X         2 3 5 Simulation of optical interstellar scintillation. HABIBI F., MONIEZ M., ANSARI R., et al.
2013A&A...553A.115B viz 667       D     X C       16 17 30 Fragmentation and dynamical collapse of the starless high-mass star-forming region IRDC 18310-4. BEUTHER H., LINZ H., TACKENBERG J., et al.
2013A&A...555A.140S 42           X         1 12 19 Determination of the far-infrared dust opacity in a prestellar core. SUUTARINEN A., HAIKALA L.K., HARJU J., et al.
2013A&A...559A..53M 326         O X         8 11 14 Chemical modeling of the L1498 and L1517B prestellar cores: CO and HCO+ depletion. MARET S., BERGIN E.A. and TAFALLA M.
2013A&A...560A..41L 1317       D     X C       32 13 24 Gas-phase CO depletion and N2H+ abundances in starless cores. LIPPOK N., LAUNHARDT R., SEMENOV D., et al.
2013ApJ...763...45H 41           X         1 17 3 Chemical and physical conditions in molecular cloud core DC 000.4-19.5 (SL42) in Corona Australis. HARDEGREE-ULLMAN E., HARJU J., JUVELA M., et al.
2013ApJ...765...18T 42           X         1 22 28 Resolved depletion zones and spatial differentiation of N2H+ and N2D+. TOBIN J.J., BERGIN E.A., HARTMANN L., et al.
2013ApJ...770...51B 42           X         1 10 19 Triggering collapse of the presolar dense cloud core and injecting short-lived radioisotopes with a shock wave. II. Varied shock wave and cloud core parameters. BOSS A.P. and KEISER S.A.
2013ApJ...777..121S 97       D       C       4 28 6 Correlating infall with deuterium fractionation in dense cores. SCHNEE S., BRUNETTI N., DI FRANCESCO J., et al.
2013MNRAS.430..961K 124           X         3 2 4 Thermal effects in the initial collapse of low-mass molecular cloud cores. KHESALI A., NEJAD-ASGHAR M. and MOHAMMADPOUR M.
2013MNRAS.430.1854A 122           X         3 11 7 Does a prestellar core always become Tracing ? protostellar the evolution of cores from the prestellar to protostellar phase. ANATHPINDIKA S. and DI FRANCESCO J.
2013MNRAS.431.1296R 43           X         1 18 41 CO abundance variations in the Orion Molecular Cloud. RIPPLE F., HEYER M.H., GUTERMUTH R., et al.
2013MNRAS.435.1493A 41           X         1 35 26 Using [CI] to probe the interstellar medium in z ∼ 2.5 sub-millimeter galaxies. ALAGHBAND-ZADEH S., CHAPMAN S.C., SWINBANK A.M., et al.
2013MNRAS.435.1701C 155     A     X         3 1 49 Molecular cloud evolution - V. Cloud destruction by stellar feedback. COLIN P., VAZQUEZ-SEMADENI E. and GOMEZ G.C.
2012A&A...547A..11N 107 T K A   O X C       1 19 57 The Earliest Phases of Star formation (EPoS) observed with Herschel: the dust temperature and density distributions of
2012ApJ...757L..11W 56           X         1 3 48 Isotopic anomalies in primitive solar system matter: spin-state-dependent fractionation of nitrogen and deuterium in interstellar clouds. WIRSTROM E.S., CHARNLEY S.B., CORDINER M.A., et al.
2011A&A...525A...9O 40           X         1 9 2 Spectroscopic [CI] mapping of the infrared dark cloud G48.65-0.29. OSSENKOPF V., ORMEL C.W., SIMON R., et al.
2011A&A...525A.108H 1231     A D     X C       31 9 10 Searching for galactic hidden gas through interstellar scintillation: results from a test with the NTT-SOFI detector. HABIBI F., MONIEZ M., ANSARI R., et al.
2011A&A...526A.139S 48           X         1 1 16 Protostellar collapse of rotating cloud cores. Covering the complete first accretion period of the stellar core. SCHOENKE J. and TSCHARNUTER W.M.
2011ApJ...727...13M 40           X         1 25 13 Distribution of water vapor in molecular clouds. MELNICK G.J., TOLLS V., SNELL R.L., et al.
2011ApJ...728..143S 165           X C       3 4 50 Observational constraints on submillimeter dust opacity. SHIRLEY Y.L., HUARD T.L., PONTOPPIDAN K.M., et al.
2011ApJ...729...92B 159           X C       3 72 66 Ice and dust in the quiescent medium of isolated dense cores. BOOGERT A.C.A., HUARD T.L., COOK A.M., et al.
2011ApJ...734...60L 278           X         7 44 22 Internal motions in starless dense cores. LEE C.W. and MYERS P.C.
2011ApJ...735L..32T 119           X         3 3 3 A new recipe for obtaining central volume densities of prestellar cores from size measurements. TASSIS K. and YORKE H.W.
2011ApJ...743...98M 79           X         2 13 21 Star formation in dense clusters. MYERS P.C.
2011PASP..123..138V 254       D     X         7 98 166 Water in star-forming regions with the Herschel space observatory (WISH). I. Overview of key program and first results. VAN DISHOECK E.F., KRISTENSEN L.E., BENZ A.O., et al.
2010A&A...512A...3P         O           21 14 L1506: a prestellar core in the making. PAGANI L., RISTORCELLI I., BOUDET N., et al.
2010A&A...513A..41H 43           X         1 8 71 Nitrogen chemistry and depletion in starless cores. HILY-BLANT P., WALMSLEY M., PINEAU DES FORETS G., et al.
2010A&A...516A..57K 39           X         1 21 21 Methanol maps of low-mass protostellar systems. I. The Serpens molecular core. KRISTENSEN L.E., VAN DISHOECK E.F., VAN KEMPEN T.A., et al.
2010A&A...521L..29C 1088     A S O X C       26 7 33 Water vapor toward starless cores: the Herschel view. CASELLI P., KETO E., PAGANI L., et al.
2010ApJ...708..127S 40           X         1 11 39 The dust emissivity spectral index in the starless core TMC-1C. SCHNEE S., ENOCH M., NORIEGA-CRESPO A., et al.
2010ApJ...711..655J 40           X         1 9 33 Dense gas tracers in Perseus: relating the N2H+, NH3, and dust continuum properties of pre- and protostellar cores. JOHNSTONE D., ROSOLOWSKY E., TAFALLA M., et al.
2010ApJ...712.1137K 41           X         1 8 46 The mass-size relation from clouds to cores. I. A new probe of structure in molecular clouds. KAUFFMANN J., PILLAI T., SHETTY R., et al.
2010ApJ...712L.116P 86           X         2 6 92 Direct observation of a sharp transition to coherence in dense cores. PINEDA J.E., GOODMAN A.A., ARCE H.G., et al.
2010ApJ...716..299S 39           X         1 49 27 Near-infrared imaging polarimetry of the Serpens cloud core: magnetic field structure, outflows, and inflows in a cluster forming clump. SUGITANI K., NAKAMURA F., TAMURA M., et al.
2010ApJ...716..433K 395           X C       9 16 81 The mass-size relation from clouds to cores. II. Solar neighborhood clouds. KAUFFMANN J., PILLAI T., SHETTY R., et al.
2010ApJ...719..691F 787     A D     X C       20 43 14 Nothing to hide: an X-ray survey for young stellar objects in the Pipe nebula. FORBRICH J., POSSELT B., COVEY K.R., et al.
2010ApJ...721..493B 39           X         1 5 9 The evolution of cloud cores and the formation of stars. BRODERICK A.E. and KETO E.
2010ApJ...721..686P 83           X         2 14 119 The relation between gas and dust in the Taurus molecular cloud. PINEDA J.L., GOLDSMITH P.F., CHAPMAN N., et al.
2010ApJ...724..687L 49           X         1 19 386 On the star formation rates in molecular clouds. LADA C.J., LOMBARDI M. and ALVES J.F.
2010ApJ...725.2232R viz 40           X         1 12 31 Deep near-infrared survey of the Pipe nebula. II. Data, methods, and dust extinction maps. ROMAN-ZUNIGA C.G., ALVES J.F., LADA C.J., et al.
2010MNRAS.406.1253N 39           X         1 2 3 The future of low-mass condensations in the core of a molecular cloud. NEJAD-ASGHAR M.
2010MNRAS.407.2434S 39           X         1 6 11 Molecular line profiles from contracting dense cores. STAHLER S.W. and YEN J.J.
2010MNRAS.408.2426R 79           X         2 9 3 Investigating the effects of chemistry on molecular line profiles of infalling low-mass cores. ROBERTS J.F., RAWLINGS J.M.C. and STACE H.A.
2009A&A...498..771G 42           X         1 4 26 The ionization fraction gradient across the Horsehead edge: an archetype for molecular clouds. GOICOECHEA J.R., PETY J., GERIN M., et al.
2009A&A...500..845M 39           X         1 45 13 Prestellar and protostellar cores in Orion B9. MIETTINEN O., HARJU J., HAIKALA L.K., et al.
2009A&A...501..619P 120           X C       2 12 94 Cosmic-ray ionization of molecular clouds. PADOVANI M., GALLI D. and GLASSGOLD A.E.
2009A&A...506.1243T 845   K A     X C       21 5 34 Constraining the ortho-to-para ratio of H2 with anomalous H2CO absorption. TROSCOMPT N., FAURE A., MARET S., et al.
2009A&A...508..275C 42           X         1 9 67 Microscopic simulation of methanol and formaldehyde ice formation in cold dense cores. CUPPEN H.M., VAN DISHOECK E.F., HERBST E., et al.
2009ApJ...690.1497H 419     A S   X         10 12 151 Water, O2, and ice in molecular clouds. HOLLENBACH D., KAUFMAN M.J., BERGIN E.A., et al.
2009ApJ...690.1659R 78           X         2 9 5 The dense ring in the Coalsack: the merging of two subsonic flows? RATHBORNE J.M., LADA C.J., WALSH W., et al.
2009ApJ...692...91G 42           X         1 15 99 The "True" column density distribution in star-forming molecular clouds. GOODMAN A.A., PINEDA J.E. and SCHNEE S.L.
2009ApJ...693L..81M viz 117           X C       2 40 68 Observational 5-20 µm interstellar extinction curves toward star-forming regions derived from Spitzer IRS spectra. McCLURE M.
2009ApJ...695.1308B 1703 T K A     X C F     41 2 14 The inevitable future of the starless core Barnard 68. BURKERT A. and ALVES J.
2009ApJ...695.1505M 78             C       1 30 5 The molecular emission of the irradiated star-forming core ahead of HH 80N. MASQUE J.M., GIRART J.M., BELTRAN M.T., et al.
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