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Intermediate-mass star- forming regions: are they so complex? Maite Beltrán Josep Miquel Girart Robert Estalella Paul T.P. Ho Aina Palau.

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Presentation on theme: "Intermediate-mass star- forming regions: are they so complex? Maite Beltrán Josep Miquel Girart Robert Estalella Paul T.P. Ho Aina Palau."— Presentation transcript:

1 Intermediate-mass star- forming regions: are they so complex? Maite Beltrán Josep Miquel Girart Robert Estalella Paul T.P. Ho Aina Palau

2 Introduction Intermediate-mass protostars: 2 M o < M < 10 M o ; precursors of Herbig Ae and Be stars; embedded in clouds of gas and dust; power energetic molecular outflows, in general less collimated and bipolar and more chaotic than those of low-mass stars. Intermediate-mass protostars: 2 M o < M < 10 M o ; precursors of Herbig Ae and Be stars; embedded in clouds of gas and dust; power energetic molecular outflows, in general less collimated and bipolar and more chaotic than those of low-mass stars. Intermediate-mass are rare in comparison with low-mass counterparts; located at greater distances; the immediate vicinity is a very complex environment; dust emission resolved out in more than one YSO; interaction of the outflows with the surroundings is more dramatic poorly understood, in part due to the difficulty of identifying true protostars. Intermediate-mass are rare in comparison with low-mass counterparts; located at greater distances; the immediate vicinity is a very complex environment; dust emission resolved out in more than one YSO; interaction of the outflows with the surroundings is more dramatic poorly understood, in part due to the difficulty of identifying true protostars. Are intermediate-mass protostars and outflows intrinsically different, being the latter sistematically less collimated? Or is the complexity the result of the environment itself and poor angular resolution observations? Are intermediate-mass protostars and outflows intrinsically different, being the latter sistematically less collimated? Or is the complexity the result of the environment itself and poor angular resolution observations? High-angular resolution observations: observational constraints? BIMA and OVRO observations of gas and dust at mm s: CO, CS, CH 3 OH, C 18 O, HC 3 N to compare the morphology and evolution of intermediate-mass protostars with those of low-mass High-angular resolution observations: observational constraints? BIMA and OVRO observations of gas and dust at mm s: CO, CS, CH 3 OH, C 18 O, HC 3 N to compare the morphology and evolution of intermediate-mass protostars with those of low-mass IC1396N and L1206: embedded sources in two bright-rimmed clouds IC1396N and L1206: embedded sources in two bright-rimmed clouds

3 IC1396N Cepheus@ 750 pc IRAS 21391+5802 Digitized Sky survey 2 + VLA 3.6 cm observations (Beltrán et al. 2002) L=225-440 L o

4 IC1396N (Codella et al. 2001) (Reipurth et al. 2003) H2H2

5 IC1396N: continuum obervations VLA @ 3.6cm BIMA IRAS 21391+5802 Beltrán et al. (2002) 5.1 M o 0.1 M o

6 IC1396N: CO and CS BIMA 1BIMA 3 BIMA 2

7 IC1396N: CS and CH 3 OH Shocked material

8 IC1396N: interaction of the outflow with the dense material CO(1-0) + CS(5-4) shocks CS (5-4) quiescent Shocked cloudlet model scenario inverted bow shock Clumps are tracing gas entrained within the surface of interaction between the molecular outflow and the dense ambient quiescent clump

9 L1206 IRAS 22272+6358A @910 pc Digitized Sky survey 2 + VLA 6 cm observations (Beltrán et al. 2006) L=1200 L o 13 CO(1-0) C 18 O(1-0) 2mm Sugitani et al. (2000) Ridge et al. (2003)

10 L1206 IRAS 22272+6358A @910 pc Digitized Sky survey 2 + VLA 6 cm observations (Beltrán et al. 2006) L=1200 L o Sugitani et al. (1989)

11 L1206:continuum + CO OVRO Beltrán et al. (2006) IRAS 22272+6358A 1.6 M o 2.2 M o 1.8 M o 14.2 M o CO(1-0)

12 L1206: C 18 O + HC 3 N (1-0) (12-11) -11 km/s redshifted peak @5.5 SE

13 L1206: interaction of the molecular cloud with the ionized bright-rimmed cloud OVRO 2 Weakness and small size of the redshifted lobe: redshifted lobe breaks outs out of the molecular cloud or redshifted (southern) lobe is photodissociated Digitized Sky survey 2 + VLA 6 cm observations (Beltrán et al. 2006) The HII region is in the background and the ionization- shock front lies very close to the southern redshifted lobe, thus any redshifted ejected material could be destroyed by the intense radiation field at the ionization front. The internal pressure of the molecular gas ~ ionized boundary layer pressure the ionized front right now would be stalled or redshifted (southern) lobe is photodissociated HC 3 N elongated in the direction of the CO outflow and peaks south of OVRO 2. Emission is enhanced 3-4 towards the south: shock-enhancement either by the outflow or most probably by the shock preceding the ionization front, which has compressed and heated the neutral gas, helping to enhance the HC 3 N abundance CO+HC 3 N OVRO 2

14 Intermediate-mass protostars and their outflows Intermediate-mass star forming regions are usually resolved into more than one embedded object, being one of them the one with has most of the mass. Intermediate-mass star forming regions are usually resolved into more than one embedded object, being one of them the one with has most of the mass. The morphology and properties of the intermediate-mass protostars do not differ significantly of those of low-mass The morphology and properties of the intermediate-mass protostars do not differ significantly of those of low-mass The same for their molecular outflows. They are more massive and energetic than those of low- mass stars, however their properties are consistent with the correlations found for low-mass objects (e.g. Bontemps et al. 1996; Anglada 1996). The same for their molecular outflows. They are more massive and energetic than those of low- mass stars, however their properties are consistent with the correlations found for low-mass objects (e.g. Bontemps et al. 1996; Anglada 1996). The complexity and chaoticity of the molecular outflows driven by intermediate-mass protostars is not intrinsic but a result of the more complex protostellar environment itself they are embedded in larger amounts of material, then the interactions between high-velocity gas and the circumstellar material will be more dramatic, disrupting and pushing more material. The complexity and chaoticity of the molecular outflows driven by intermediate-mass protostars is not intrinsic but a result of the more complex protostellar environment itself they are embedded in larger amounts of material, then the interactions between high-velocity gas and the circumstellar material will be more dramatic, disrupting and pushing more material. Need of high-angular resolution observations (e.g. high collimation of the outflows) Need of high-angular resolution observations (e.g. high collimation of the outflows)

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