Near-IR imaging toward a puzzling young stellar object precessing jet

Paron, S.; Fariña, C.; Ortega, M.E.

doi:10.1051/0004-6361/201628495

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Paron, S.; Fariña, C.; Ortega, M.E. "Near-IR imaging toward a puzzling young stellar object precessing jet" (2016) Astronomy and Astrophysics. 593

https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00046361_v593_n_p_Paron

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Abstract:

Aims. The study of jets that are related to stellar objects in formation is important because it enables us to understand the history of how the stars have built up their mass. Many studies currently examine jets towards low-mass young stellar objects, while equivalent studies toward massive or intermediate-mass young stellar objects are rare. In a previous study, based on 12CO J = 3-2 and public near-IR data, we found highly misaligned molecular outflows toward the infrared point source UGPS J185808.46+010041.8 (IRS) and some infrared features suggesting the existence of a precessing jet. Methods. Using near-IR data acquired with Gemini-NIRI at the JHKs broad- and narrowbands centered on the emission lines of [FeII], H2 1-0 S(1), H2 2-1 S(1), Brγ, and CO 2-0 (bh), we studied the circumstellar environment of IRS with an angular resolution between 0.35 and 0.45. Results. The emission in the JHKs broadbands shows in great detail a cone-shaped nebula extending to the north-northeast of the point source, which appears to be attached to it by a jet-like structure. In the three bands the nebula is resolved in a twisted-shaped feature composed of two arc-like features and a bow-shock-like structure seen mainly in the Ks band, which strongly suggests the presence of a precessing jet. An analysis of proper motions based on our Gemini observations and UKIDSS data additionally supports the precession scenario. We present one of the best-resolved cone-like nebula that is most likely related to a precessing jet up to date. The analysis of the observed near-IR lines shows that the H2 is collisionally excited, and the spatially coincidence of the [FeII] and H2 emissions in the closer arc-like feature suggests that this region is affected by a J shock. The second arc-like feature presents H2 emission without [FeII], which suggests a nondissociated C shock or a less energetic J shock. The H2 1-0 S(1) continuum-subtracted image reveals several knots and filaments at a larger spatial scale around IRS. These perfect match the distribution of the red- and blueshifted molecular outflows discovered in our previous work. An unresolved system of YSOs is suggested to explain the distribution of the analyzed near-IR features and the molecular outflows, which in turn explains the jet precession through tidal interactions. © ESO, 2016.

Registro:

Documento:	Artículo
Título:	Near-IR imaging toward a puzzling young stellar object precessing jet
Autor:	Paron, S.; Fariña, C.; Ortega, M.E.
Filiación:	Instituto de Astronomía y Física Del Espacio (CONICET - Universidad de Buenos Aires), Suc. 28, Buenos Aires, 1428, Argentina CBC and FADU - Universidad de Buenos Aires, Ciudad Universitaria, Buenos Aires, 1428, Argentina Isaac Newton Group of Telescopes, La Palma, 38700, Spain
Palabras clave:	ISM: jets and outflows; Stars: formation; Stars: protostars; Infrared imaging; Molecular mass; Stars; Angular resolution; Infrared features; ISM: jets and out flow; Molecular outflows; Stars: formation; Stars: protostars; Tidal interactions; Young stellar objects; Fighter aircraft
Año:	2016
Volumen:	593
DOI:	http://dx.doi.org/10.1051/0004-6361/201628495
Título revista:	Astronomy and Astrophysics
Título revista abreviado:	Astron. Astrophys.
ISSN:	00046361
CODEN:	AAEJA
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00046361_v593_n_p_Paron

Referencias:

Bally, J., Reipurth, B., Davis, C.J., (2007) Protostars and Planets v, p. 215
Bally, J., Walawender, J., Reipurth, B., Megeath, S.T., (2009) AJ, 137, p. 3843
Bally, J., Youngblood, A., Ginsburg, A., (2012) ApJ, 756, p. 137
Bik, A., Thi, W.F., (2004) A&A, 427, p. L13
Bik, A., Kaper, L., Hanson, M.M., Smits, M., (2005) A&A, 440, p. 121
Bik, A., Kaper, L., Waters, L.B.F.M., (2006) A&A, 455, p. 561
Black, J.H., Van Dishoeck, E.F., (1987) ApJ, 322, p. 412
Carr, J.S., (1989) ApJ, 345, p. 522
Ciardi, A., Hennebelle, P., (2010) MNRAS, 409, p. L39
Connelley, M.S., Reipurth, B., Tokunaga, A.T., (2008) AJ, 135, p. 2496
Cutri, R.M., Skrutskie, M.F., Van Dyk, S., (2012) VizieR Online Data Catalog: II/281
Davis, C.J., Cervantes, B., Nisini, B., (2011) A&A, 528, p. A3
Dionatos, O., Jørgensen, J.K., Green, J.D., (2013) A&A, 558, p. A88
Dionatos, O., Jørgensen, J.K., Teixeira, P.S., Güdel, M., Bergin, E., (2014) A&A, 563, p. A28
Erben, T., Schirmer, M., Dietrich, J.P., (2005) Astron. Nachr., 326, p. 432
Hodapp, K.W., Jensen, J.B., Irwin, E.M., (2003) PASP, 115, p. 1388
Hollenbach, D., McKee, C.F., (1989) ApJ, 342, p. 306
Ilee, J.D., Fairlamb, J., Oudmaijer, R.D., (2014) MNRAS, 445, p. 3723
Konigl, A., Pudritz, R.E., (2000) Protostars and Planets IV, p. 759
Kraus, S., Balega, Y., Elitzur, M., (2006) A&A, 455, p. 521
Kraus, S., Hofmann, K.-H., Benisty, M., (2008) A&A, 489, p. 1157
Kumar, M.S.N., Fernandes, A.J.L., Hunter, T.R., Davis, C.J., Kurtz, S., (2003) A&A, 412, p. 175
Lefloch, B., Cernicharo, J., Reipurth, B., Pardo, J.R., Neri, R., (2007) ApJ, 658, p. 498
Lewis, B.T., Bate, M.R., Price, D.J., (2015) MNRAS, 451, p. 288
Lucas, P.W., Hoare, M.G., Longmore, A., (2008) MNRAS, 391, p. 136
Lumsden, S.L., Hoare, M.G., Urquhart, J.S., (2013) ApJS, 208, p. 11
Martin, S.C., (1997) ApJ, 478, p. L33
Massi, F., Codella, C., Brand, J., (2004) A&A, 419, p. 241
McKee, C.F., Ostriker, E.C., (2007) ARA&A, 45, p. 565
Mundt, R., Buehrke, T., Solf, J., Ray, T.P., Raga, A.C., (1990) A&A, 232, p. 37
Paron, S., Fariña, C., Ortega, M.E., (2013) A&A, 559, p. L2
Paron, S., Ortega, M.E., Petriella, A., Rubio, M., (2014) A&A, 567, p. A99
Preibisch, T., Balega, Y.Y., Schertl, D., Weigelt, G., (2003) A&A, 412, p. 735
Reipurth, B., Bally, J., (2001) ARA&A, 39, p. 403
Reipurth, B., Yu, K.C., Heathcote, S., Bally, J., Rodríguez, L.F., (2000) AJ, 120, p. 1449
Reiter, M., Smith, N., Kiminki, M.M., Bally, J., Anderson, J., (2015) MNRAS, 448, p. 3429
Schirmer, M., (2013) ApJS, 209, p. 21
Scoville, N., Kleinmann, S.G., Hall, D.N.B., Ridgway, S.T., (1983) ApJ, 275, p. 201
Smith, M.D., (1994) MNRAS, 266, p. 238
Smith, M.D., (1995) A&A, 296, p. 789
Smith, M.D., Rosen, A., (2005) MNRAS, 357, p. 579
(2012) VizieR Online Data Catalog: II/316, , UKIDSS Consortium
Weigelt, G., Beuther, H., Hofmann, K.-H., (2006) A&A, 447, p. 655
Wolfire, M.G., Konigl, A., (1991) ApJ, 383, p. 205

Citas:

---------- APA ----------

Paron, S., Fariña, C. & Ortega, M.E. (2016) . Near-IR imaging toward a puzzling young stellar object precessing jet. Astronomy and Astrophysics, 593.
http://dx.doi.org/10.1051/0004-6361/201628495

---------- CHICAGO ----------

Paron, S., Fariña, C., Ortega, M.E. "Near-IR imaging toward a puzzling young stellar object precessing jet" . Astronomy and Astrophysics 593 (2016).
http://dx.doi.org/10.1051/0004-6361/201628495

---------- MLA ----------

Paron, S., Fariña, C., Ortega, M.E. "Near-IR imaging toward a puzzling young stellar object precessing jet" . Astronomy and Astrophysics, vol. 593, 2016.
http://dx.doi.org/10.1051/0004-6361/201628495

---------- VANCOUVER ----------

Paron, S., Fariña, C., Ortega, M.E. Near-IR imaging toward a puzzling young stellar object precessing jet. Astron. Astrophys. 2016;593.
http://dx.doi.org/10.1051/0004-6361/201628495