Browse > Article
http://dx.doi.org/10.5303/PKAS.2015.30.2.093

INFLOWS IN MASSIVE STAR FORMATION REGIONS  

WU, YUEFANG (Astronomy Department, Physical College, Peking University)
LIU, TIE (Korea Astronomy and Space Science Institute)
QIN, SHENGLI (Department of Astronomy, Yunnan University)
Publication Information
Publications of The Korean Astronomical Society / v.30, no.2, 2015 , pp. 93-97 More about this Journal
Abstract
How high-mass stars form is currently unclear. Calculations suggest that the radiation pressure of a forming star can halt spherical infall, preventing further growth when it reaches $10M_{\odot}$. Two major theoretical models on the further growth of stellar mass have been proposed. One model suggests the merging of less massive stellar objects, and the other is through accretion, but with the help of a disk. Inflow motions are key evidence for how forming stars gain further mass to build up massive stars. Recent developments in technology have boosted the search for inflow motion. A number of high-mass collapse candidates were obtained with single dish observations, and mostly showed blue profiles. Infalling signatures seem to be more common in regions which have developed radiation pressure than in younger cores, which is the opposite of the theoretical prediction and is also very different from observations of low mass star formation. Interferometer studies so far confirm this tendency with more obvious blue profiles or inverse P Cygni profiles. Results seem to favor the accretion model. However, the evolution of the infall motion in massive star forming cores needs to be further explored. Direct evidence for monolithic or competitive collapse processes is still lacking. ALMA will enable us to probe more detail of the gravitional processes.
Keywords
stars: formation; stars: pre-main sequence; ISM: kinematics and dynamics;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Bonnell, Ian A., Bate, Matthew R., & Zinnecker, Hans, 1998, On the Formation of Massive Stars, MNRAS, 298, 93   DOI   ScienceOn
2 Bonnell, I. A., Clarke, C. J., Bate, M. R., & Pringle, J. E., 2001, Accretion in Stellar Clusters and the Initial Mass Function, MNRAS.,324, 573   DOI   ScienceOn
3 Cesaroni, R., Walmsley, C. M., & Churchwell, E., 1992, Hot Ammonia toward Ultracompact H II Regions, A&A, 256, 618
4 Chen, Xi, Shen, Zhi-Qiang, Li, Jing-Jing, Xu, Ye, He, & Jin-Hua, 2010, A Search for Infall Evidence in EGOs. I. The Northern Sample, ApJ, 710, 150   DOI
5 Fuller, G. A.; Williams, S. J., & Sridharan, T. K., 2005, The Circumstellar Environment of High Mass Protostellar Objects. III. Evidence of Infall?, A&A, 442, 949   DOI   ScienceOn
6 Hofner, P., Kurtz, S., Churchwell, E., Walmsley, C. M., & Cesaroni, R., 1996, Massive Star Formation in the Hot, Dense Cloud Core of G9.62+0.19, ApJ, 460, 359   DOI
7 Hofner, P., Peterson, S., & Cesaroni, R., 1999, Ammonia Absorption toward the Ultracompact H II Regions G45.12+0.13 and G45.47+0.05, ApJ, 514, 899   DOI
8 Hofner, Peter, Wiesemeyer, Helmut, & Henning, Thomas, 2001, A High-Velocity Molecular Outflow from the G9.62+0.19 Star-Forming Region, ApJ, 549, 425   DOI
9 Jijina, Jasmin, Adams, & Fred, C., 1996, Infall Collapse Solutions in the Inner Limit: Radiation Pressure and Its Effects on Star Formation, ApJ, 462, 874   DOI
10 Klaassen, P. D. & Wilson, C. D., 2007, Outflow and Infall in a Sample of Massive Star-forming Regions, ApJ, 663, 1092   DOI
11 Klaassen, P. D., Testi, L., Beuther, H., 2012, Looking for Outflow and Infall Signatures in High-Mass Star-Forming Regions, A&A, 538,140   DOI
12 Liu, Tie, Wu, Yuefang, Liu, Sheng-Yuan, Qin, Sheng-Li, & Su, Yu-Nung, 2011b, Infall and Outflow Motions in the High-mass Star-forming Complex G9.62+0.19, ApJ, 730, 102   DOI
13 Liu, Tie,Wu, Yuefang, & Zhang, Huawei, 2013a, Uniform In-fall toward the Cometary H II Region in the G34.26+0.15 Complex?, ApJ, 776,29   DOI
14 Purcell, C. R., Balasubramanyam, R., Burton, M. G.,Walsh, A. J., & Minier, V. et al., 2006, A $CH_3CN$ and HCO+ Sur-vey towards Southern Methanol Masers Associated with Star Formation, MNRAS, 367, 553   DOI   ScienceOn
15 Liu, Tie, Wu, Yuefang, Wu, Jingwen, Qin, Sheng-Li, & Zhang, Huawei, 2013b, Competitive Accretion in the Protocluster G10.6-0.4?, MNRAS,436, 1335   DOI
16 Liu, Tie, Wu, Yuefang, Zhang, Qizhou, Ren, Zhiyuan, Guan, Xin, & Zhu, Ming, 2011a, Infall and Outflow Detections in a Massive Core JCMT 18354-0649S, ApJ, 728, 91   DOI
17 Mardones, D., Myers, P. C., Tafalla, M., Wilner, D. J., Bachiller, R., & Garay, G. 1997, A Search for Infall Motions toward Nearby Young Stellar Objects, ApJ, 489, 719   DOI
18 Qin, Sheng-Li, Zhao, Jun-Hui, Moran, James M., Marrone, Daniel P., Patel, Nimesh A., Wang, Jun-Jie, Liu, Sheng-Yuan, & Kuan, Yi-Jehng, 2008, ApJ, 677, 353   DOI
19 Qiu, Keping, Zhang, Qizhou, & Menten, Karl M., 2008, ApJ, 728, 6
20 Ren, Zhiyuan, Wu, Yuefang, Zhu, Ming, Liu, Tie, Peng, Ruisheng, Qin, Shengli, & Li, Lixin, 2012, The Molecular Emissions and the Infall Motion in the High-Mass Young Stellar Object G8.68-0.37, MNRAS, 422, 1098   DOI   ScienceOn
21 Shu, Frank H., Adams, Fred C., & Lizano, Susana, 1987, Star Formation in Molecular Clouds - Observation and Theory, ARA&A, 25, 23   DOI   ScienceOn
22 Testi, L., Hofner, P., Kurtz, S., & Rupen, M., 2000, Detection of the Thermal Radio Continuum Emission from the G9.62+0.19-F Hot Core, A&A.359, L5
23 Velusamy, T., Peng, R., Li, D., Goldsmith, P. F., & Langer, William D., 2008, Dichotomy in the Dynamical Status of Massive Cores in Orion, ApJ, 688, L87   DOI
24 Wu, Yuefang; Liu, Tie; Qin, Shengli 2014, A Study of Dynamical Processes in the Orion KL Region Using ALMAProbing Molecular Outflow and Inflow, ApJ, 791, 123   DOI
25 Wilner, D. J., Ho, P. T. P., & Zhang, Q., 1996, Searching for Infall: Aperture Synthesis HCO +(1-0) and SiO(2-1) Observations of the G45.47+0.05 Region, ApJ, 462, 339   DOI
26 Wolfire, Mark G., & Cassinelli, Joseph P., 1987, Conditions for the Formation of Massive stars, ApJ, 319, 850   DOI
27 Wu, Jingwen, & Evans, Neal J., II, 2003, Indications of Inflow Motions in Regions Forming Massive Stars, ApJ, 592, L79   DOI
28 Wu, Yuefang, Henkel, Christian, Xue, Rui, Guan, Xin, & Miller, Martin, 2007, Signatures of Inflow Motion in Cores of Massive Star Formation: Potential Collapse Candi-dates, ApJ, 669, L37   DOI
29 Wu, Yuefang, Zhu, Ming, Wei, Yue, Xu, Dandan, & Zhang, Qizhou, et al., 2005, The Discovery of a Massive SCUBA Core with both Inflow and Outflow Motions, ApJ, 628, L57   DOI
30 Wyrowski, F., Heyminck, S., Gusten, R., & Menten, K. M., 2006, Mid- and High-J CO Observations towards Ultra-compact HII Regions, A&A, 454, L95   DOI   ScienceOn
31 Yorke, Harold W., Sonnhalter, Cordula, 2002, On the Formation of Massive Stars, ApJ, 569, 846   DOI
32 Zapata, L. A., Palau, A., Ho, P. T. P., Schilke, P., Garrod, R. T., Rodriguez, L. F., & Menten, K. 2008, Forming an Early O-Type Star through Gas Accretion?, A&A, 479, L25   DOI   ScienceOn
33 Zhou, Shudong, Evans, Neal J., II, Koempe, Carsten, & Walmsley, C. M., 1993, Evidence for Protostellar Collapse in B335, ApJ, 404, 232   DOI
34 Zhu, Lei, Zhao, Jun-Hui, Wright, M. C. H., Sandell, Goran, Shi, Hui, Wu, Yue-Fang, Brogan, Crystal, & Corder, Stu-artt, 2013, Subarcsecond Observations of NGC 7538 IRS 1: Continuum Distribution and Dynamics of Molecular Gas, ApJ, 779, 51   DOI
35 Zhu, Lei, Wright, M. C. H., Zhao, Jun-Hui, & Wu, Yuefang, 2010, Dust and HCO+ Gas in the Star-Forming Core W3-SE, ApJ, 712, 674   DOI