JCMTSE J032536.1+304514 , the SIMBAD biblio

JCMTSE J032536.1+304514 , the SIMBAD biblio (127 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.04.24CEST07:52:46

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Keywords 		in a table in teXt, Caption, ... Nb occurence Nb objects in ref Citations
(from ADS) 		Title First 3 Authors
1990ApJ...365L..85C 1 11 61 The exciting source of the bipolar outflow in L 1448. CURIEL S., RAYMOND J.C., RODRIGUEZ L.F., et al.
1998ApJ...509..733B 31 68 Protostars in Perseus: outflow-induced fragmentation. BARSONY M., WARD-THOMPSON D., ANDRE P., et al.
1999ApJ...515..696O 21 31 L1448 IRS 2: a HIRES-identified class 0 protostar. O'LINGER J., WOLF-CHASE G., BARSONY M., et al.
1999ApJ...527..310C 8 17 A study of the kinematics and temperature of the high-density molecular gas surrounding L1448C. CURIEL S., TORRELLES J.M., RODRIGUEZ L.F., et al.
2000A&A...360..297N 1 12 63 Far infrared mapping of the gas cooling along the L1448 outflow. NISINI B., BENEDETTINI M., GIANNINI T., et al.
2000AJ....120.1467W 38 33 Giant molecular outflows powered by protostars in L1448. WOLF-CHASE G.A., BARSONY M. and O'LINGER J.
2000ApJ...529..477L 3 39 384 Unveiling the circumstellar envelope and disk: a subarcsecond survey of circumstellar structures. LOONEY L.W., MUNDY L.G. and WELCH W.J.
2001ApJ...552L..63G 1 9 28 Proper motion of the extremely high velocity SiO j = 2 ⟶ 1 emission in L1448. GIRART J.M. and ACORD J.M.P.
2002AJ....124.1045R 48 106 Radio continuum maps of deeply embedded protostars: thermal jets, multiplicity, and variability. REIPURTH B., RODRIGUEZ L.F., ANGLADA G., et al.
2002ApJ...575..337S 2 26 162 Tracing the mass during low-mass star formation. III. Models of the submillimeter dust continuum emission from class 0 protostars. SHIRLEY Y.L., EVANS II N.J. and RAWLINGS J.M.C.
2003ApJ...585..392C 110 T K                 1 13 16 Mid-infrared imaging of the protostellar binary L1448N IRS 3(A,
B). 		CIARDI D.R., TELESCO C.M., WILLIAMS J.P., et al.
2003ApJ...592..255L 32 78 Envelope emission in young stellar systems: a subarcsecond survey of circumstellar structure. LOONEY L.W., MUNDY L.G. and WELCH W.J.
2005A&A...440..151H viz 15       D               112 187 Star formation in Perseus. Clusters, filaments and the conditions for star formation. HATCHELL J., RICHER J.S., FULLER G.A., et al.
2006A&A...449.1077C 253 105 H2 active jets in the near IR as a probe of protostellar evolution. CARATTI O GARATTI A., GIANNINI T., NISINI B., et al.
2006AJ....131.2601O 19 12 A mid-infrared study of the class 0 cluster in LDN 1448. O'LINGER J.C., COLE D.M., RESSLER M.E., et al.
2006ApJ...645.1246J 1 49 192 The Spitzer c2d survey of large, nearby, interstellar clouds. III. Perseus observed with IRAC. JORGENSEN J.K., HARVEY P.M., EVANS II N.J., et al.
2006ApJ...646.1009K viz 15       D               1 123 186 The large- and small-scale structures of dust in the star-forming Perseus molecular cloud. KIRK H., JOHNSTONE D. and DI FRANCESCO J.
2006ApJ...648..504C 18 4 Millimeter imaging of the HH 270 protostellar core and outflow. CHOI M. and TANG Y.-W.
2006ApJ...651..301V 27 16 Dense cores with multiple protostars: the velocity fields of L1448 IRS 3, NGC 1333 IRAS 2, and NGC 1333 IRAS 4. VOLGENAU N.H., MUNDY L.G., LOONEY L.W., et al.
2006ApJ...653.1358K 15 21 Two bipolar outflows and magnetic fields in the multiple protostar system L 1448 IRS 3. KWON W., LOONEY L.W., CRUTCHER R.M., et al.
2007ApJ...654..316G viz 219 73 X-ray study of triggered star formation and protostars in IC 1396N. GETMAN K.V., FEIGELSON E.D., GARMIRE G., et al.
2007ApJ...659.1404T 1 19 44 Imaging scattered light from the youngest protostars in L 1448: signatures of outflows. TOBIN J.J., LOONEY L.W., MUNDY L.G., et al.
2007ApJ...664..377C 15 4 Star formation in the Bok globule CB 54. CIARDI D.R. and GOMEZ MARTIN C.
2007ApJS..171..447R 180 107 The Spitzer c2d survey of large, nearby, interstellar clouds. VI. Perseus observed with MIPS. REBULL L.M., STAPELFELDT K.R., EVANS II N.J., et al.
2007A&A...472..187H viz 15       D               1 67 85 Star formation in Perseus. III. Outflows. HATCHELL J., FULLER G.A. and RICHER J.S.
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.
2008ApJ...680..474C 31 29 Constraining the earliest circumstellar disks and their envelopes. CHIANG H.-F., LOONEY L.W., TASSIS K., et al.
2008A&A...489.1175P 15       D               1 14 9 Detection of 6.7 GHz methanol absorption towards hot corinos. PANDIAN J.D., LEURINI S., MENTEN K.M., et al.
2008ApJS..179..249D viz 15       D               1 227 239 Identifying the low-luminosity population of embedded protostars in the c2d observations of clouds and cores. DUNHAM M.M., CRAPSI A., EVANS II N.J., 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.
2009ApJ...696..841K 1382       D     X C F     35 15 104 Grain growth and density distribution of the youngest protostellar systems. KWON W., LOONEY L.W., MUNDY L.G., et al.
2009ApJ...697..769S 114           X         3 50 93 Discovery of the second warm carbon-chain-chemistry source, IRAS15398-3359 in Lupus. SAKAI N., SAKAI T., HIROTA T., et al.
2009A&A...502..139H 243       D     X C       6 139 27 Star formation in Perseus. V. Outflows detected by HARP. HATCHELL J. and DUNHAM M.M.
2009ApJ...706..170N 77           X   F     1 26 71 Spitzer spectral line mapping of protostellar outflows. I. Basic data and outflow energetics. NEUFELD D.A., NISINI B., GIANNINI T., 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.
2010MNRAS.401..455C 229           X C F     4 43 32 A submillimetre survey of the kinematics of the Perseus molecular cloud - I. Data. CURTIS E.I., RICHER J.S. and BUCKLE J.V.
2010ApJ...717...58H 40           X         1 19 95 Extreme active molecular jets in L1448C. HIRANO N., HO P.T.P., LIU S.-Y., et al.
2010A&A...510A..74W 53       D     X         2 83 4 The clumpiness of molecular clouds: HCO+ (3-2) survey near Herbig-Haro objects. WHYATT W., GIRART J.M., VITI S., et al.
2010MNRAS.407.1981G 15       D               1 41 28 Have protoplanetary discs formed planets{quest}. GREAVES J.S. and RICE W.K.M.
2011AJ....141...39S 38           X         1 14 17 Mustang 3.3 mm continuum observations of class 0 protostars. SHIRLEY Y.L., MASON B.S., MANGUM J.G., et al.
2011MNRAS.412L..88G 15       D               1 20 11 Do all sun-like stars have planets? inferences from the disc mass reservoirs of class 0 protostars. GREAVES J.S. and RICE W.K.M.
2011ApJ...742...58M 207       D S   X         5 50 6 Formaldehyde densitometry of galactic star-forming regions using the H2CO 312-313 and 413-414Transitions. McCAULEY P.I., MANGUM J.G. and WOOTTEN A.
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...549A..16N 117           X C       2 17 25 Mapping water in protostellar outflows with Herschel. PACS and HIFI observations of L1448-C. NISINI B., SANTANGELO G., ANTONIUCCI S., et al.
2013ApJ...768..110C 16       D               1 122 133 SMA observations of class 0 protostars: a high angular resolution survey of protostellar binary systems. CHEN X., ARCE H.G., ZHANG Q., et al.
2013ApJ...768..159H 19       D               1 21 145 Misalignment of magnetic fields and outflows in protostellar cores. HULL C.L.H., PLAMBECK R.L., BOLATTO A.D., et al.
2014ApJ...783....6V viz 16       D               1 109 17 HiRes deconvolved Spitzer images of 89 protostellar jets and outflows: new data on the evolution of the outflow morphology. VELUSAMY T., LANGER W.D. and THOMPSON T.
2014ApJ...787L..18S 17       D               1 37 93 Class 0 protostars in the Perseus molecular cloud: a correlation between the youngest protostars and the dense gas distribution. SADAVOY S.I., DI FRANCESCO J., ANDRE Ph., et al.
2014ApJS..213...13H viz 528       D     X C       13 94 191 TADPOL: a 1.3 mm survey of dust polarization in star-forming cores and regions. HULL C.L.H., PLAMBECK R.L., KWON W., et al.
2014A&A...572A...9K 79             C       1 54 27 Shockingly low water abundances in Herschel/PACS observations of low-mass protostars in Perseus. KARSKA A., KRISTENSEN L.E., VAN DISHOECK E.F., et al.
2015ApJ...798..128T 16       D               1 60 23 Characterizing the youngest herschel-detected protostars. I. Envelope structure revealed by CARMA dust continuum observations. TOBIN J.J., STUTZ A.M., MEGEATH S.T., et al.
2015ApJ...799..193Y 890       D     X         23 37 49 Observations of infalling and rotational motions on a 1000 AU scale around 17 class 0 and 0/I protostars: hints of disk growth and magnetic braking? YEN H.-W., KOCH P.M., TAKAKUWA S., et al.
2015ApJ...805..125T 954     A D     X C       24 34 81 A sub-arcsecond survey toward class 0 protostars in Perseus: searching for signatures of protostellar disks. TOBIN J.J., LOONEY L.W., WILNER D.J., et al.
2015AJ....150...40Y viz 16       D               1 390 18 The Spitzer c2d survey of large, nearby, interstellar clouds. XII. The Perseus YSO population as observed with IRAC and MIPS. YOUNG K.E., YOUNG C.H., LAI S.-P., 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...814..114L 335       D     X         9 12 26 Mass assembly of stellar systems and their evolution with the SMA (MASSES). Multiplicity and the physical environment in L1448N. LEE K.I., DUNHAM M.M., MYERS P.C., et al.
2016ApJ...818...73T viz 242           X C       5 145 206 The VLA Nascent Disk and Multiplicity survey of Perseus protostars (VANDAM). II. Multiplicity of protostars in the Perseus molecular cloud. TOBIN J.J., LOONEY L.W., LI Z.-Y., et al.
2016ApJ...820L...2L 178       D     X         5 29 43 Misalignment of outflow axes in the proto-multiple systems in Perseus. LEE K.I., DUNHAM M.M., MYERS P.C., et al.
2016ApJ...823..151C 177       D     X C       4 24 3 Protostar L1455 IRS1: a rotating disk connecting to a filamentary network. CHOU H.-G., YEN H.-W., KOCH P.M., et al.
2016A&A...592A..56M 86 9 Do siblings always form and evolve simultaneously? Testing the coevality of multiple protostellar systems through SEDs. MURILLO N.M., VAN DISHOECK E.F., TOBIN J.J., et al.
2016Natur.538..483T 22 8 183 A triple protostar system formed via fragmentation of a gravitationally unstable disk. TOBIN J.J., KRATTER K.M., PERSSON M.V., et al.
2017ApJ...835..287G 85           X         2 1 4 Consistent SPH simulations of protostellar collapse and fragmentation. GABBASOV R., SIGALOTTI L.D.G., CRUZ F., et al.
2017A&A...599A.121D viz 203           X C       4 29 19 Glycolaldehyde in Perseus young solar analogs. DE SIMONE M., CODELLA C., TESTI L., et al.
2017ApJ...838..151T 44           X         1 5 19 Apparent disk-mass reduction and planetisimal formation in gravitationally unstable disks in Class 0/I young stellar objects. TSUKAMOTO Y., OKUZUMI S. and KATAOKA A.
2017ApJ...839L..24M 46           X         1 6 33 On the origin of the spiral morphology in the Elias 2-27 circumstellar disk. MERU F., JUHASZ A., ILEE J.D., et al.
2017ApJ...840...72L 43           X         1 24 52 Systematic analysis of spectral energy distributions and the dust opacity indices for Class 0 young stellar objects. LI J.I.-H., LIU H.B., HASEGAWA Y., et al.
2017AJ....153..214M viz 16       D               4 312 3 An estimation of the star formation rate in the Perseus complex. MERCIMEK S., MYERS P.C., LEE K.I., et al.
2017ApJ...845...10F 42           X         1 9 16 Strongly misaligned triple system in SR 24 revealed by ALMA. FERNANDEZ-LOPEZ M., ZAPATA L.A. and GABBASOV R.
2017MNRAS.469.3881S viz 16       D               1 86 19 Embedded binaries and their dense cores. SADAVOY S.I. and STAHLER S.W.
2017A&A...603A.105D 41           X         1 12 8 Magnetic diffusivities in 3D radiative chemo-hydrodynamic simulations of protostellar collapse. DZYURKEVICH N., COMMERCON B., LESAFFRE P., et al.
2017MNRAS.470.1828E 42           X         1 9 12 Gravitational instabilities in a protosolar-like disc - II. Continuum emission and mass estimates. EVANS M.G., ILEE J.D., HARTQUIST T.W., et al.
2017ApJ...848...40B 58           X         1 1 17 The fragmentation criteria in local vertically stratified self-gravitating disk simulations. BAEHR H., KLAHR H. and KRATTER K.M.
2018ApJ...852...18T 140       D     X C       3 44 10 The VLA Nascent Disk and Multiplicity survey of Perseus protostars (VANDAM). III. Extended radio emission from protostars in Perseus. TYCHONIEC L., TOBIN J.J., KARSKA A., et al.
2017MNRAS.472.3775M 82           X         2 3 4 The structure of young embedded protostellar discs. MacFARLANE B.A. and STAMATELLOS D.
2018ApJ...853....5P 140       D     X C       3 89 38 Hierarchical fragmentation in the Perseus molecular cloud: from the cloud scale to protostellar objects. POKHREL R., MYERS P.C., DUNHAM M.M., et al.
2018ApJ...854...31J 41           X         1 37 17 The JCMT Transient Survey: stochastic and secular variability of protostars and disks in the submillimeter region observed over 18 months. JOHNSTONE D., HERCZEG G.J., MAIRS S., et al.
2018MNRAS.475.5618B 374           X C F     7 48 202 On the diversity and statistical properties of protostellar discs. BATE M.R.
2018MNRAS.477.1004H 42           X         1 7 10 Is the spiral morphology of the Elias 2-27 circumstellar disc due to gravitational instability? HALL C., RICE K., DIPIERRO G., et al.
2018ApJ...861...91H 84           X         2 24 54 ALMA observations of polarized 872 µm dust emission from the protostellar systems VLA 1623 and L1527. HARRIS R.J., COX E.G., LOONEY L.W., et al.
2018ApJS..236...52H 16       D               2 63 11 Chemical survey toward young stellar objects in the Perseus molecular cloud complex. HIGUCHI A.E., SAKAI N., WATANABE Y., et al.
2018A&A...616A.139G 51 23 SMA observations of polarized dust emission in solar-type Class 0 protostars: Magnetic field properties at envelope scales. GALAMETZ M., MAURY A., GIRART J.M., et al.
2018ApJ...866..161S 676       D S   X C       15 44 65 The VLA Nascent Disk and Multiplicity survey of Perseus protostars (VANDAM). V. 18 candidate disks around Class 0 and I protostars in the Perseus molecular cloud. SEGURA-COX D.M., LOONEY L.W., TOBIN J.J., et al.
2018ApJ...867...43T 701           X C       16 49 53 The VLA/ALMA Nascent Disk and Multiplicity (VANDAM) survey of Perseus protostars. VI. Characterizing the formation mechanism for close multiple systems. TOBIN J.J., LOONEY L.W., LI Z.-Y., et al.
2018ApJ...869...51I 16       D               1 46 2 Deuterium fractionation survey toward protostellar sources in the Perseus molecular cloud: HNC case. IMAI M., SAKAI N., LOPEZ-SEPULCRE A., et al.
2018A&A...620A..30M viz 16       D               2 32 4 Role of environment and gas temperature in the formation of multiple protostellar systems: molecular tracers. MURILLO N.M., VAN DISHOECK E.F., TOBIN J.J., et al.
2019MNRAS.483.1266E 42           X         1 5 1 Gravitational instabilities in a protosolar-like disc - III. Molecular line detection and sensitivities. EVANS M.G., HARTQUIST T.W., CASELLI P., et al.
2019ApJ...871...84M 76           X         1 4 138 Hydrodynamics of circumbinary accretion: angular momentum transfer and binary orbital evolution. MUNOZ D.J., MIRANDA R. and LAI D.
2019A&A...621A..76M 436       D     X C       10 80 90 Characterizing young protostellar disks with the CALYPSO IRAM-PdBI survey: large Class 0 disks are rare. MAURY A.J., ANDRE P., TESTI L., et al.
2019MNRAS.483.4114C 50           X         1 10 85 Flybys in protoplanetary discs: I. Gas and dust dynamics. CUELLO N., DIPIERRO G., MENTIPLAY D., et al.
2019ApJ...873..114V 42           X         1 9 2 Time evolution of 3d disk formation with misaligned magnetic field and rotation axes. VAISALA M.S., SHANG H., KRASNOPOLSKY R., et al.
2019ApJ...877L..25M 50           X         1 3 26 The first bird's-eye view of a gravitationally unstable accretion disk in high-mass star formation. MOTOGI K., HIROTA T., MACHIDA M.N., et al.
2019A&A...626A..93V viz 42           X         1 12 4 The ALMA-PILS survey: gas dynamics in IRAS 16293-2422 and the connection between its two protostars. VAN DER WIEL M.H.D., JACOBSEN S.K., JORGENSEN J.K., et al.
2019A&A...628A.112K 89           X         2 8 41 The bridge: a transient phenomenon of forming stellar multiples. Sequential formation of stellar companions in filaments around young protostars. KUFFMEIER M., CALCUTT H. and KRISTENSEN L.E.
2019ApJ...883...22C 18       D               1 54 71 The degree of alignment between circumbinary disks and their binary hosts. CZEKALA I., CHIANG E., ANDREWS S.M., et al.
2019A&A...631A...1V 42           X         1 6 ~ Gravitoviscous protoplanetary disks with a dust component. II. Spatial distribution and growth of dust in a clumpy disk. VOROBYOV E.I. and ELBAKYAN V.G.
2019Sci...366...90A 50           X         1 7 56 Gas flow and accretion via spiral streamers and circumstellar disks in a young binary protostar. ALVES F.O., CASELLI P., GIRART J.M., et al.
2019A&A...632A...5G 352       D     X C       8 25 43 Low dust emissivities and radial variations in the envelopes of Class 0 protostars: possible signature of early grain growth. GALAMETZ M., MAURY A.J., VALDIVIA V., et al.
2020ApJ...889..140Y 43           X         1 11 ~ High-resolution near-infrared polarimetry and submillimeter imaging of FS Tau A: possible streamers in misaligned circumbinary disk system. YANG Y., AKIYAMA E., CURRIE T., et al.
2020A&A...635A..15M 342     A D S   X C F     6 37 42 Searching for kinematic evidence of Keplerian disks around Class 0 protostars with CALYPSO. MARET S., MAURY A.J., BELLOCHE A., et al.
2020A&A...635A.198B 44           X         1 52 64 Questioning the spatial origin of complex organic molecules in young protostars with the CALYPSO survey BELLOCHE A., MAURY A.J., MARET S., et al.
2020NatAs...4..142L 87           X         2 12 29 Spiral structures in an embedded protostellar disk driven by envelope accretion. LEE C.-F., LI Z.-Y. and TURNER N.J.
2020ApJ...901..166V 44           X         1 34 50 Temperature structures of embedded disks: young disks in Taurus are warm. VAN 'T HOFF M.L.R., HARSONO D., TOBIN J.J., et al.
2020ApJ...902..141S 45           X         1 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.
2020ApJ...904..185O 44           X         1 10 12 Substructures in the disk-forming region of the Class 0 low-mass protostellar source IRAS 16293-2422 Source A on a 10 au scale. OYA Y. and YAMAMOTO S.
2020A&A...644A..47G 315       D     X   F     7 60 14 An observational correlation between magnetic field, angular momentum and fragmentation in the envelopes of Class 0 protostars? GALAMETZ M., MAURY A., GIRART J.M., et al.
2021ApJ...907L..10R 9011 T   A D S   X C       205 12 15 Kinematic analysis of a protostellar multiple system: measuring the protostar masses and assessing gravitational instability in the disks of
L1448
IRS3B and L1448 IRS3A. 		REYNOLDS N.K., TOBIN J.J., SHEEHAN P., et al.
2021ApJ...907...33Y 279       D     X         7 78 21 The JCMT BISTRO survey: alignment between outflows and magnetic fields in dense Cores/Clumps. YEN H.-W., KOCH P.M., HULL C.L.H., et al.
2021ApJ...910...11O 44           X         1 26 14 FAUST. II. Discovery of a secondary outflow in IRAS 15398-3359: variability in outflow direction during the earliest stage of star formation? OKODA Y., OYA Y., FRANCIS L., et al.
2021A&A...648A..45P 636     A     X         15 65 24 The CALYPSO IRAM-PdBI survey of jets from Class 0 protostars. Exploring whether jets are ubiquitous in young stars. PODIO L., TABONE B., CODELLA C., et al.
2021MNRAS.507.1157R 45           X         1 14 17 Circumbinary and circumstellar discs around the eccentric binary IRAS 04158+2805 - a testbed for binary-disc interaction. RAGUSA E., FASANO D., TOCI C., et al.
2021MNRAS.508.2583Z 44           X         1 15 13 The young protostellar disc in IRAS 16293-2422 B is hot and shows signatures of gravitational instability. ZAMPONI J., MAUREIRA M.J., ZHAO B., et al.
2021ApJ...920...71A 44           X         1 13 8 Multi-scale dust polarization and spiral-like Stokes-I residual in the class I protostellar system TMC-1A. ASO Y., KWON W., HIRANO N., et al.
2022ApJ...925...39T viz 90           X         2 405 20 The VLA/ALMA Nascent Disk And Multiplicity (VANDAM) Survey of Orion Protostars. V. A Characterization of Protostellar Multiplicity. TOBIN J.J., OFFNER S.S.R., KRATTER K.M., et al.
2022ApJ...927...54O 45           X         1 27 6 Misaligned Rotations of the Envelope, Outflow, and Disks in the Multiple Protostellar System of VLA 1623-2417: FAUST. III. OHASHI S., CODELLA C., SAKAI N., et al.
2022ApJ...928L...3B 90           X         2 17 10 The Two Hot Corinos of the SVS13-A Protostellar Binary System: Counterposed Siblings. BIANCHI E., LOPEZ-SEPULCRE A., CECCARELLI C., et al.
2022MNRAS.514..906C 47           X         1 4 10 Accretion rates in hierarchical triple systems with discs. CEPPI S., CUELLO N., LODATO G., et al.
2022ApJ...941L..23M 45           X         1 19 5 Dust Hot Spots at 10 au Scales around the Class 0 Binary IRAS 16293-2422 A: A Departure from the Passive Irradiation Model. MAUREIRA M.J., GONG M., PINEDA J.E., et al.
2023ApJ...943..175W 47           X         1 5 3 On the Role of Dynamical Cooling in the Dynamics of Circumbinary Disks. WANG H.-Y., BAI X.-N. and LAI D.
2023MNRAS.522.1591T 93           X         2 17 ~ Collision of molecular outflows in the L1448-C system. TOLEDANO-JUAREZ I., DE LA FUENTE E., TRINIDAD M.A., et al.
2023MNRAS.522.6217L 47           X         1 5 ~ The role of the drag force in the gravitational stability of dusty planet-forming disc - II. Numerical simulations. LONGARINI C., ARMITAGE P.J., LODATO G., et al.
2023A&A...673A.134M 93           X         2 3 ~ The role of magnetic fields in the formation of multiple massive stars. MIGNON-RISSE R., GONZALEZ M. and COMMERCON B.
2023MNRAS.519.2578D 93           X         2 11 ~ The impact of the initial core temperature on protostellar disc fragmentation. DI SIGALOTTI L.G., CRUZ F., HARETER M., et al.
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