The VLA Nascent Disk and Multiplicity Survey of Perseus Protostars (VANDAM). IV. Free-Free Emission from Protostars: Links to Infrared Properties, Outflow Tracers, and Protostellar Disk Masses

Łukasz Tychoniec; John J. Tobin; Agata Karska; Claire Chandler; Michael M. Dunham; Robert J. Harris; Kaitlin M. Kratter; Zhi Yun Li; Leslie W. Looney; Carl Melis; Laura M. Pérez; Sarah I. Sadavoy; Dominique Segura-Cox; Ewine F. Van Dishoeck

doi:10.3847/1538-4365/aaceae

The VLA Nascent Disk and Multiplicity Survey of Perseus Protostars (VANDAM). IV. Free-Free Emission from Protostars: Links to Infrared Properties, Outflow Tracers, and Protostellar Disk Masses

Łukasz Tychoniec, John J. Tobin, Agata Karska, Claire Chandler, Michael M. Dunham, Robert J. Harris, Kaitlin M. Kratter, Zhi Yun Li, Leslie W. Looney, Carl Melis, Laura M. Pérez, Sarah I. Sadavoy, Dominique Segura-Cox, Ewine F. Van Dishoeck

Astronomy

Research output: Contribution to journal › Article › peer-review

Abstract

Emission from protostars at centimeter radio wavelengths has been shown to trace the free-free emission arising from ionizing shocks as a result of jets and outflows driven by protostars. Therefore, measuring properties of protostars at radio frequencies can provide valuable insights into the nature of their outflows and jets. We present a C-band (4.1 and 6.4 cm) survey of all known protostars (Class 0 and Class I) in Perseus as part of the VLA Nascent Disk and Multiplicity (VANDAM) Survey. We examine the known correlations between radio flux density and protostellar parameters, such as bolometric luminosity and outflow force, for our sample. We also investigate the relationship between radio flux density and far-infrared line luminosities from Herschel. We show that free-free emission most likely originates from J-type shocks; however, the large scatter indicates that those two types of emission probe different time and spatial scales. Using C-band fluxes, we removed an estimation of free-free contamination from the corresponding Ka-band (9 mm) flux densities that primarily probe dust emission from embedded disks. We find that the compact (<1″) dust emission is lower for Class I sources (median dust mass 96 M _⊕) relative to Class 0 (248 M _⊕), but several times higher than in Class II (5-15 M _⊕). If this compact dust emission is tracing primarily the embedded disk, as is likely for many sources, this result provides evidence of decreasing disk masses with protostellar evolution, with sufficient mass for forming giant planet cores primarily at early times.

Original language	English (US)
Article number	19
Journal	Astrophysical Journal, Supplement Series
Volume	238
Issue number	2
DOIs	https://doi.org/10.3847/1538-4365/aaceae
State	Published - Oct 2018

Keywords

protoplanetary disks
radio continuum: stars
stars: formation
stars: protostars
stars: winds, outflows
techniques: interferometric

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/1538-4365/aaceae

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Tychoniec, Ł., Tobin, J. J., Karska, A., Chandler, C., Dunham, M. M., Harris, R. J., Kratter, K. M., Li, Z. Y., Looney, L. W., Melis, C., Pérez, L. M., Sadavoy, S. I., Segura-Cox, D., & Van Dishoeck, E. F. (2018). The VLA Nascent Disk and Multiplicity Survey of Perseus Protostars (VANDAM). IV. Free-Free Emission from Protostars: Links to Infrared Properties, Outflow Tracers, and Protostellar Disk Masses. Astrophysical Journal, Supplement Series, 238(2), Article 19. https://doi.org/10.3847/1538-4365/aaceae

The VLA Nascent Disk and Multiplicity Survey of Perseus Protostars (VANDAM). IV. Free-Free Emission from Protostars: Links to Infrared Properties, Outflow Tracers, and Protostellar Disk Masses. / Tychoniec, Łukasz; Tobin, John J.; Karska, Agata et al.
In: Astrophysical Journal, Supplement Series, Vol. 238, No. 2, 19, 10.2018.

Research output: Contribution to journal › Article › peer-review

Tychoniec, Ł, Tobin, JJ, Karska, A, Chandler, C, Dunham, MM, Harris, RJ, Kratter, KM, Li, ZY, Looney, LW, Melis, C, Pérez, LM, Sadavoy, SI, Segura-Cox, D & Van Dishoeck, EF 2018, 'The VLA Nascent Disk and Multiplicity Survey of Perseus Protostars (VANDAM). IV. Free-Free Emission from Protostars: Links to Infrared Properties, Outflow Tracers, and Protostellar Disk Masses', Astrophysical Journal, Supplement Series, vol. 238, no. 2, 19. https://doi.org/10.3847/1538-4365/aaceae

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title = "The VLA Nascent Disk and Multiplicity Survey of Perseus Protostars (VANDAM). IV. Free-Free Emission from Protostars: Links to Infrared Properties, Outflow Tracers, and Protostellar Disk Masses",

abstract = "Emission from protostars at centimeter radio wavelengths has been shown to trace the free-free emission arising from ionizing shocks as a result of jets and outflows driven by protostars. Therefore, measuring properties of protostars at radio frequencies can provide valuable insights into the nature of their outflows and jets. We present a C-band (4.1 and 6.4 cm) survey of all known protostars (Class 0 and Class I) in Perseus as part of the VLA Nascent Disk and Multiplicity (VANDAM) Survey. We examine the known correlations between radio flux density and protostellar parameters, such as bolometric luminosity and outflow force, for our sample. We also investigate the relationship between radio flux density and far-infrared line luminosities from Herschel. We show that free-free emission most likely originates from J-type shocks; however, the large scatter indicates that those two types of emission probe different time and spatial scales. Using C-band fluxes, we removed an estimation of free-free contamination from the corresponding Ka-band (9 mm) flux densities that primarily probe dust emission from embedded disks. We find that the compact (<1″) dust emission is lower for Class I sources (median dust mass 96 M ⊕) relative to Class 0 (248 M ⊕), but several times higher than in Class II (5-15 M ⊕). If this compact dust emission is tracing primarily the embedded disk, as is likely for many sources, this result provides evidence of decreasing disk masses with protostellar evolution, with sufficient mass for forming giant planet cores primarily at early times.",

keywords = "protoplanetary disks, radio continuum: stars, stars: formation, stars: protostars, stars: winds, outflows, techniques: interferometric",

author = "{\L}ukasz Tychoniec and Tobin, {John J.} and Agata Karska and Claire Chandler and Dunham, {Michael M.} and Harris, {Robert J.} and Kratter, {Kaitlin M.} and Li, {Zhi Yun} and Looney, {Leslie W.} and Carl Melis and P{\'e}rez, {Laura M.} and Sadavoy, {Sarah I.} and Dominique Segura-Cox and {Van Dishoeck}, {Ewine F.}",

note = "Funding Information: J.J.T. acknowledges past support provided by NASA through Hubble Fellowship grant #HST-HF-51300.01-A awarded by the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., for NASA, under contract NAS 5-26555. A.K. acknowledges support from the Polish National Science Center grant 2016/21/D/ST9/01098. L.T. and A.K. acknowledge support from the HECOLS International Associated Laboratory, supported in part by the Polish NCN grant DEC-2013/08/M/ST9/00664. Z.Y.L. is supported in part by NASA NNX 14AB38G, NSF AST-1313083 and AST-1716259. The National Radio Astronomy Observatory is a facility of the National Science Foundation operated under cooperative agreement by Associated Universities, Inc. This research made use of NASA's Astrophysics Data System. Funding Information: The authors thank the anonymous referee, whose comments enhanced the quality of the manuscript. The authors wish to thank Y. Shirley and J. Mottram for sharing data from their previous works, and G. Anglada for insightful comments on the draft. {\L}.T. thanks S. van Terwisga and A. Bosman for stimulating discussions. Astrochemistry in Leiden is supported by the Netherlands Research School for Astronomy (NOVA), by a Royal Netherlands Academy of Arts and Sciences (KNAW) professor prize, and by the European Union A-ERC grant 291141 CHEMPLAN. {\L}.T. is supported by the Leiden/ESA Astrophysics Program for Summer Students (LEAPS). J.J.T. acknowledges support from the Homer L. Dodge endowed chair, and J.J.T. and {\L}.T. acknowledge support from grant 639.041.439 from the Netherlands Organisation for Scientific Research (NWO). J.J.T. acknowledges past support provided by NASA through Hubble Fellowship grant #HST-HF-51300.01-A awarded by the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., for NASA, under contract NAS 5-26555. A.K. acknowledges support from the Polish National Science Center grant 2016/21/D/ST9/01098. {\L}.T. and A.K. acknowledge support from the HECOLS International Associated Laboratory, supported in part by the Polish NCN grant DEC-2013/08/M/ ST9/00664. Z.Y.L. is supported in part by NASA NNX 14AB38G, NSF AST-1313083 and AST-1716259. The National Radio Astronomy Observatory is a facility of the National Science Foundation operated under cooperative agreement by Associated Universities, Inc. This research made use of NASA{\textquoteright}s Astrophysics Data System. Publisher Copyright: {\textcopyright} 2018. The American Astronomical Society. All rights reserved.",

year = "2018",

month = oct,

doi = "10.3847/1538-4365/aaceae",

language = "English (US)",

volume = "238",

journal = "Astrophysical Journal, Supplement Series",

issn = "0067-0049",

publisher = "IOP Publishing Ltd.",

number = "2",

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TY - JOUR

T1 - The VLA Nascent Disk and Multiplicity Survey of Perseus Protostars (VANDAM). IV. Free-Free Emission from Protostars

T2 - Links to Infrared Properties, Outflow Tracers, and Protostellar Disk Masses

AU - Tychoniec, Łukasz

AU - Tobin, John J.

AU - Karska, Agata

AU - Chandler, Claire

AU - Dunham, Michael M.

AU - Harris, Robert J.

AU - Kratter, Kaitlin M.

AU - Li, Zhi Yun

AU - Looney, Leslie W.

AU - Melis, Carl

AU - Pérez, Laura M.

AU - Sadavoy, Sarah I.

AU - Segura-Cox, Dominique

AU - Van Dishoeck, Ewine F.

N1 - Funding Information: J.J.T. acknowledges past support provided by NASA through Hubble Fellowship grant #HST-HF-51300.01-A awarded by the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., for NASA, under contract NAS 5-26555. A.K. acknowledges support from the Polish National Science Center grant 2016/21/D/ST9/01098. L.T. and A.K. acknowledge support from the HECOLS International Associated Laboratory, supported in part by the Polish NCN grant DEC-2013/08/M/ST9/00664. Z.Y.L. is supported in part by NASA NNX 14AB38G, NSF AST-1313083 and AST-1716259. The National Radio Astronomy Observatory is a facility of the National Science Foundation operated under cooperative agreement by Associated Universities, Inc. This research made use of NASA's Astrophysics Data System. Funding Information: The authors thank the anonymous referee, whose comments enhanced the quality of the manuscript. The authors wish to thank Y. Shirley and J. Mottram for sharing data from their previous works, and G. Anglada for insightful comments on the draft. Ł.T. thanks S. van Terwisga and A. Bosman for stimulating discussions. Astrochemistry in Leiden is supported by the Netherlands Research School for Astronomy (NOVA), by a Royal Netherlands Academy of Arts and Sciences (KNAW) professor prize, and by the European Union A-ERC grant 291141 CHEMPLAN. Ł.T. is supported by the Leiden/ESA Astrophysics Program for Summer Students (LEAPS). J.J.T. acknowledges support from the Homer L. Dodge endowed chair, and J.J.T. and Ł.T. acknowledge support from grant 639.041.439 from the Netherlands Organisation for Scientific Research (NWO). J.J.T. acknowledges past support provided by NASA through Hubble Fellowship grant #HST-HF-51300.01-A awarded by the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., for NASA, under contract NAS 5-26555. A.K. acknowledges support from the Polish National Science Center grant 2016/21/D/ST9/01098. Ł.T. and A.K. acknowledge support from the HECOLS International Associated Laboratory, supported in part by the Polish NCN grant DEC-2013/08/M/ ST9/00664. Z.Y.L. is supported in part by NASA NNX 14AB38G, NSF AST-1313083 and AST-1716259. The National Radio Astronomy Observatory is a facility of the National Science Foundation operated under cooperative agreement by Associated Universities, Inc. This research made use of NASA’s Astrophysics Data System. Publisher Copyright: © 2018. The American Astronomical Society. All rights reserved.

PY - 2018/10

Y1 - 2018/10

N2 - Emission from protostars at centimeter radio wavelengths has been shown to trace the free-free emission arising from ionizing shocks as a result of jets and outflows driven by protostars. Therefore, measuring properties of protostars at radio frequencies can provide valuable insights into the nature of their outflows and jets. We present a C-band (4.1 and 6.4 cm) survey of all known protostars (Class 0 and Class I) in Perseus as part of the VLA Nascent Disk and Multiplicity (VANDAM) Survey. We examine the known correlations between radio flux density and protostellar parameters, such as bolometric luminosity and outflow force, for our sample. We also investigate the relationship between radio flux density and far-infrared line luminosities from Herschel. We show that free-free emission most likely originates from J-type shocks; however, the large scatter indicates that those two types of emission probe different time and spatial scales. Using C-band fluxes, we removed an estimation of free-free contamination from the corresponding Ka-band (9 mm) flux densities that primarily probe dust emission from embedded disks. We find that the compact (<1″) dust emission is lower for Class I sources (median dust mass 96 M ⊕) relative to Class 0 (248 M ⊕), but several times higher than in Class II (5-15 M ⊕). If this compact dust emission is tracing primarily the embedded disk, as is likely for many sources, this result provides evidence of decreasing disk masses with protostellar evolution, with sufficient mass for forming giant planet cores primarily at early times.

AB - Emission from protostars at centimeter radio wavelengths has been shown to trace the free-free emission arising from ionizing shocks as a result of jets and outflows driven by protostars. Therefore, measuring properties of protostars at radio frequencies can provide valuable insights into the nature of their outflows and jets. We present a C-band (4.1 and 6.4 cm) survey of all known protostars (Class 0 and Class I) in Perseus as part of the VLA Nascent Disk and Multiplicity (VANDAM) Survey. We examine the known correlations between radio flux density and protostellar parameters, such as bolometric luminosity and outflow force, for our sample. We also investigate the relationship between radio flux density and far-infrared line luminosities from Herschel. We show that free-free emission most likely originates from J-type shocks; however, the large scatter indicates that those two types of emission probe different time and spatial scales. Using C-band fluxes, we removed an estimation of free-free contamination from the corresponding Ka-band (9 mm) flux densities that primarily probe dust emission from embedded disks. We find that the compact (<1″) dust emission is lower for Class I sources (median dust mass 96 M ⊕) relative to Class 0 (248 M ⊕), but several times higher than in Class II (5-15 M ⊕). If this compact dust emission is tracing primarily the embedded disk, as is likely for many sources, this result provides evidence of decreasing disk masses with protostellar evolution, with sufficient mass for forming giant planet cores primarily at early times.

KW - protoplanetary disks

KW - radio continuum: stars

KW - stars: formation

KW - stars: protostars

KW - stars: winds, outflows

KW - techniques: interferometric

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The VLA Nascent Disk and Multiplicity Survey of Perseus Protostars (VANDAM). IV. Free-Free Emission from Protostars: Links to Infrared Properties, Outflow Tracers, and Protostellar Disk Masses

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