Difference between revisions of "CG4 Proposal"

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http://adsabs.harvard.edu/abs/2005AJ....129.1564K
 
http://adsabs.harvard.edu/abs/2005AJ....129.1564K
 
--[[User:Rebull|Rebull]] 15:57, 13 January 2010 (PST)
 
--[[User:Rebull|Rebull]] 15:57, 13 January 2010 (PST)
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Title: Low-Mass Star Formation in the Gum Nebula: The CG 30/31/38 Complex
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Authors: Kim, Jinyoung Serena; Walter, Frederick M.; Wolk, Scott J.
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Affiliation: AA(Department of Physics and Astronomy, State University of New York at Stony Brook, NY 11794-3800 serena@as.arizona.edu.; Steward Observatory, University of Arizona, 933 North Cherry Avenue, Tucson, AZ 85721-0065.; Visiting Astronomer, Cerro Tololo Inter-American Observatory, which is operated by the Association of Universities for Research in Astronomy, Inc., under contact with the National Science Foundation.), AB(Department of Physics and Astronomy, State University of New York at Stony Brook, NY 11794-3800 serena@as.arizona.edu.), AC(Harvard Smithsonian Center for Astrophysics, 60 Garden Street, Cambridge, MA 02138.)
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Publication: The Astronomical Journal, Volume 129, Issue 3, pp. 1564-1579. (AJ Homepage)
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Publication Date:03/2005
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Origin:UCP
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AJ Keywords:Stars: Circumstellar Matter, ISM: H II Regions, ISM: Globules, Stars: Formation, Stars: Low-Mass, Brown Dwarfs, Stars: Pre-Main-Sequence
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DOI:10.1086/428002
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Bibliographic Code:2005AJ....129.1564K
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Abstract
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We present photometric and spectroscopic results for the low-mass pre-main-sequence (PMS) stars with spectral types K-M in the cometary globule (CG) 30/31/38 complex. We obtained multiobject high-resolution spectra for the targets selected as possible PMS stars from multiwavelength photometry. We identified 11 PMS stars brighter than V=16.5 with ages <~5 Myr at a distance of approximately 200 pc. The spatial distribution of the PMS stars, CG clouds, and ionizing sources (O stars and supernova remnants) suggests a possible triggered origin of the star formation in this region. We confirm the youth of the photometrically selected PMS stars using the lithium abundances. The radial velocities of the low-mass PMS stars are consistent with those of the cometary globules. Most of the PMS stars show weak Hα emission with Wλ(Hα)<10 Å. Only one out of the 11 PMS stars shows a moderate near-IR excess, which suggests a short survival time (t<5 Myr) of circumstellar disks in this star-forming environment. In addition, we find five young late-type stars and one Ae star that have no obvious relation to the CG 30/31/38 complex. We also discuss a possible scenario of the star formation history in the CG 30/31/38 region.
  
  
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Abstract
 
Abstract
We propose to obtain IRAC and MIPS images of a newly discovered star forming region, cometary cloud complex CG~4/SA101 (Kim et al. 2005c). We also propose to acquire more complete IRAC and MIPS images of a cometary globule complex CG~30/31, where we found young stars (Kim et al. 2005a,c), but existing program by a Spitzer legacy team (c2d) did not observe. Both star forming complexes reside in the Gum Nebula, where early O stars, Wolf-Rayet star, supernovae remnants, and OB associations produce strong ionizing UV photons. These two star forming regions are in a photoevaporating cometary shaped bright-rimmed clouds, at few tens of parsecs away from the common center of main ionizing sources in the Gum Nebula, placing them in a 'intermediate' UV radiation field between Orion-like Strong radiation field regions and Taurus-like weak radiation field regions. We propose to perform comparative and statistical studies probing circumstellar disk characteristics and evolution in different star forming environments together with existing data of well-known star forming regions. The age range of the young stars in these regions (1-5 Myr old) is also of a great interest, because this is a time when transition from optically thick disks to optically thin debris disks occurs. Therefore, this proposed observations will provide an important dataset to study lifetime of inner disks and optically thick disk evolution in such environments. We probe yet another common mode of star formation, forming in groups in triggered mode or influenced by UV photons from nearby ionizing sources. Our dataset and study will contribute to a better understanding of star formation and circumstellar disk evolution linking well-known star forming regions in weak and strong radiation field environments. We believe that this dataset will also benefit other star formation and disk communities for various other studies in addition to existing dataset of clusters and associations, obtained by GTO, legacy, and GO1.  
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We propose to obtain IRAC and MIPS images of a newly discovered star forming region, cometary cloud complex CG~4/SA101 (Kim et al. 2005c). We also propose to acquire more complete IRAC and MIPS images of a cometary globule complex CG~30/31, where we found young stars (Kim et al. 2005a,c), but existing program by a Spitzer legacy team (c2d) did not observe. Both star forming complexes reside in the Gum Nebula, where early O stars, Wolf-Rayet star, supernovae remnants, and OB associations produce strong ionizing UV photons. These two star forming regions are in a photoevaporating cometary shaped bright-rimmed clouds, at few tens of parsecs away from the common center of main ionizing sources in the Gum Nebula, placing them in a 'intermediate' UV radiation field between Orion-like Strong radiation field regions and Taurus-like weak radiation field regions. We propose to perform comparative and statistical studies probing circumstellar disk characteristics and evolution in different star forming environments together with existing data of well-known star forming regions. The age range of the young stars in these regions (1-5 Myr old) is also of a great interest, because this is a time when transition from optically thick disks to optically thin debris disks occurs. Therefore, this proposed observations will provide an important dataset to study lifetime of inner disks and optically thick disk evolution in such environments. We probe yet another common mode of star formation, forming in groups in triggered mode or influenced by UV photons from nearby ionizing sources. Our dataset and study will contribute to a better understanding of star formation and circumstellar disk evolution linking well-known star forming regions in weak and strong radiation field environments. We believe that this dataset will also benefit other star formation and disk communities for various other studies in addition to existing dataset of clusters and associations, obtained by GTO, legacy, and GO1.
 
 
 
 
 
 
 
 
  
 
=Existing observations=
 
=Existing observations=

Revision as of 00:02, 14 January 2010

Background information

Identifiers (aliases) for CG 4 ... BHR 21, Sandqvist 103, FEST 2-30, DCld 259.4-12.7

I found this by typing CG4 into SIMBAD. The results were in the middle of the page. Scrolling down further, there's a list of 20 articles in which CG 4 is mentioned.

Talk to you on Wednesday! --chj


My Plan to continue Lit. search--Mallory 23:35, 11 January 2010 (PST) is to finish SIMBAD, then go to ADS and to find a way to confirm and quantify lots! of IR (probably by opacity class) and little UV/max not to exceed a threshold to be determined; don't want the object to be a middle-aged star already.

Is it the group's intention to consider locations outside of CG4, which could be cluster members?

--Mallory 23:28, 11 January 2010 (PST)Carolyn


In a search through SIMBAD for CG 4 info, some interesting info and unanswered questions have emerged.

If a gaseous region were collapsing due to a radiation-driven implosion, what's to stop it from rebounding back out, and how would we know the mechanism had occurred? Maybe by the length of tails (also created by outward pressures)? Is this a safe assumption? There seems to be a conflict between different analyses as to whether tails can be traced by CO(12) spectra. How to resolve? If collapse/expansion, and rotation can occur all in the same region, are there any tools other than redshift to sort out what is happening? Interesting that there could be more than one "Center of Influence' in a region, i.e. massive star,--Mallory 15:48, 12 January 2010 (PST) whose radiation influences the CG's evolution.

chj, I'm not closely enough focused? Your ideas and suggestions?

I'll continue info-gathering. You know, this is grinding but fun; it's interesting, and I'm figuring that the Laws of Physics are the same throughout the Universe. -C


here is the paper from serena from 2005 http://adsabs.harvard.edu/abs/2005AJ....129.1564K --Rebull 15:57, 13 January 2010 (PST)

Title: Low-Mass Star Formation in the Gum Nebula: The CG 30/31/38 Complex Authors: Kim, Jinyoung Serena; Walter, Frederick M.; Wolk, Scott J. Affiliation: AA(Department of Physics and Astronomy, State University of New York at Stony Brook, NY 11794-3800 serena@as.arizona.edu.; Steward Observatory, University of Arizona, 933 North Cherry Avenue, Tucson, AZ 85721-0065.; Visiting Astronomer, Cerro Tololo Inter-American Observatory, which is operated by the Association of Universities for Research in Astronomy, Inc., under contact with the National Science Foundation.), AB(Department of Physics and Astronomy, State University of New York at Stony Brook, NY 11794-3800 serena@as.arizona.edu.), AC(Harvard Smithsonian Center for Astrophysics, 60 Garden Street, Cambridge, MA 02138.) Publication: The Astronomical Journal, Volume 129, Issue 3, pp. 1564-1579. (AJ Homepage) Publication Date:03/2005 Origin:UCP AJ Keywords:Stars: Circumstellar Matter, ISM: H II Regions, ISM: Globules, Stars: Formation, Stars: Low-Mass, Brown Dwarfs, Stars: Pre-Main-Sequence DOI:10.1086/428002 Bibliographic Code:2005AJ....129.1564K

Abstract We present photometric and spectroscopic results for the low-mass pre-main-sequence (PMS) stars with spectral types K-M in the cometary globule (CG) 30/31/38 complex. We obtained multiobject high-resolution spectra for the targets selected as possible PMS stars from multiwavelength photometry. We identified 11 PMS stars brighter than V=16.5 with ages <~5 Myr at a distance of approximately 200 pc. The spatial distribution of the PMS stars, CG clouds, and ionizing sources (O stars and supernova remnants) suggests a possible triggered origin of the star formation in this region. We confirm the youth of the photometrically selected PMS stars using the lithium abundances. The radial velocities of the low-mass PMS stars are consistent with those of the cometary globules. Most of the PMS stars show weak Hα emission with Wλ(Hα)<10 Å. Only one out of the 11 PMS stars shows a moderate near-IR excess, which suggests a short survival time (t<5 Myr) of circumstellar disks in this star-forming environment. In addition, we find five young late-type stars and one Ae star that have no obvious relation to the CG 30/31/38 complex. We also discuss a possible scenario of the star formation history in the CG 30/31/38 region.


http://adsabs.harvard.edu/abs/2006AAS...20921915K


Title: Star Formation in the Gum Nebula: Cometary Globules CG4/6/SA101 Authors: Kim, Jinyoung S.; Walter, F. M.; Wolk, S. J.; Sherry, W. H.; Foster, M. Affiliation: AA(Univ. of Arizona), AB(Stony Brook University), AC(CfA), AD(NSO/NOAO), AE(Univ. of Arizona) Publication: 2007 AAS/AAPT Joint Meeting, American Astronomical Society Meeting 209, #219.15; Bulletin of the American Astronomical Society, Vol. 38, p.1205 Publication Date: 12/2006 Origin: AAS Bibliographic Code: 2006AAS...20921915K

Abstract As a part of our on-going program to study star formation under various environments, we present preliminary results from our multi-wavelength study of a bright-rimmed cometary globule complex, CG4/6/SA101 in the Gum Nebula. These cometary clouds are photo-evaporating due to UV radiation from neighboring O stars (10 < d < 100 pc) in the Vela OB2 association. The intermediate and low-mass stars in these cometary clouds form in an environment that differs from both the quiet isolation of young stars in T-associations such as Taurus and the violently energetic environment like that of the Orion Nebula cluster (ONC). The moderate separation between the cometary clouds and the O stars creates a radiation environment that has an intensity intermediate between the Taurus and Orion star forming regions. Circumstellar material and accretion disks may last longer than those in ONC, yet may not survive as long as they would in an isolated region such as Taurus or TW Hya. We compare our results with other star forming regions under different environments.


http://adsabs.harvard.edu/abs/2005sptz.prop20714K

Title: Probing environment and circumstellar disk evolution in triggered star forming regions: IRAC and MIPS imaging of bright-rimmed globules CG4/SA101 and CG30/31 Authors: Kim, Jinyoung Serena; Sherry, Wiiliam Publication: Spitzer Proposal ID #20714 Publication Date: 06/2005 Origin: SPITZER Bibliographic Code: 2005sptz.prop20714K

Abstract We propose to obtain IRAC and MIPS images of a newly discovered star forming region, cometary cloud complex CG~4/SA101 (Kim et al. 2005c). We also propose to acquire more complete IRAC and MIPS images of a cometary globule complex CG~30/31, where we found young stars (Kim et al. 2005a,c), but existing program by a Spitzer legacy team (c2d) did not observe. Both star forming complexes reside in the Gum Nebula, where early O stars, Wolf-Rayet star, supernovae remnants, and OB associations produce strong ionizing UV photons. These two star forming regions are in a photoevaporating cometary shaped bright-rimmed clouds, at few tens of parsecs away from the common center of main ionizing sources in the Gum Nebula, placing them in a 'intermediate' UV radiation field between Orion-like Strong radiation field regions and Taurus-like weak radiation field regions. We propose to perform comparative and statistical studies probing circumstellar disk characteristics and evolution in different star forming environments together with existing data of well-known star forming regions. The age range of the young stars in these regions (1-5 Myr old) is also of a great interest, because this is a time when transition from optically thick disks to optically thin debris disks occurs. Therefore, this proposed observations will provide an important dataset to study lifetime of inner disks and optically thick disk evolution in such environments. We probe yet another common mode of star formation, forming in groups in triggered mode or influenced by UV photons from nearby ionizing sources. Our dataset and study will contribute to a better understanding of star formation and circumstellar disk evolution linking well-known star forming regions in weak and strong radiation field environments. We believe that this dataset will also benefit other star formation and disk communities for various other studies in addition to existing dataset of clusters and associations, obtained by GTO, legacy, and GO1.

Existing observations

Wiki page on searching Leopard is part of How do I download data from the Spitzer Telescope?

Education

Viv's assignment in the group was to organize the Education portion of our proposal. What if we make a case for the importance of:

  1. Teacher/Student/Scientist Scientific Research within the context of today's national and education initiatives.
  2. NITARP as a Professional Learning Community offering a Center of Strength in Science Teacher Leadership
  3. Include the variety of expected student populations and levels of participation, considering how we might measure impact across these groups.


I like these three strands. Great idea, Viv. --chj 17:19 CST 13-Jan-2010.