Difference between revisions of "Talk:CG4 Spring work"
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| − | For Apr 14: | + | =For Apr 14: KEVIN -- Reipurth and Pettersson 1993 = |
| + | http://articles.adsabs.harvard.edu/cgi-bin/nph-iarticle_query?1993A%26A...267..439R&data_type=PDF_HIGH&whole_paper=YES&type=PRINTER&filetype=.pdf | ||
| − | + | ==''Main Point''== | |
| − | |||
| − | |||
| − | |||
Found 8 new YSOs in Gum Nebula (near CG4 and Sa101 and CG13) using IR photometry, UBV photometry and spectroscopy. | Found 8 new YSOs in Gum Nebula (near CG4 and Sa101 and CG13) using IR photometry, UBV photometry and spectroscopy. | ||
| − | + | ==''High Level Summary''== | |
Surveyed 5 fields with 15 cometary globules | Surveyed 5 fields with 15 cometary globules | ||
Found 8 new YSOs | Found 8 new YSOs | ||
| Line 25: | Line 23: | ||
ruled out forground/background with spectra and | ruled out forground/background with spectra and | ||
| − | + | ==''Most Interesting''== | |
Introduction: | Introduction: | ||
Good description of cometary nebulae | Good description of cometary nebulae | ||
| Line 43: | Line 41: | ||
M2, M3-4, K7-M0, K7, K2-5, K5, M1-2, K2 | M2, M3-4, K7-M0, K7, K2-5, K5, M1-2, K2 | ||
| − | + | ==''Not sure about this''== | |
| − | + | Questions and Kevin trying to dodge the answers | |
| + | |||
TiO and MgH | TiO and MgH | ||
using the width and | using the width and | ||
| Line 58: | Line 57: | ||
| − | + | ==''I agree with this''== | |
found eight new YSOs in the area | found eight new YSOs in the area | ||
| Line 65: | Line 64: | ||
Found late-type premain sequence stars | Found late-type premain sequence stars | ||
| − | + | ==''I disagree with this''== | |
found there are different ages (spectra and movement away from globule) | found there are different ages (spectra and movement away from globule) | ||
probably continuous (from 8 stars?) | probably continuous (from 8 stars?) | ||
| − | + | ==''Why we should care''== | |
found seven new YSOs in the area | found seven new YSOs in the area | ||
| Line 79: | Line 78: | ||
| − | For Apr 21: | + | =For Apr 21: VIVIAN -- Kim et al 2003= |
| − | + | http://adsabs.harvard.edu/abs/2003csss...12..799K | |
| − | + | Full Paper link click here. [http://origins.colorado.edu/cs12/proceedings/poster/kimxx.pdf] | |
| + | |||
| + | ==''Main Point''== | ||
| + | High mass stars can terminate low mass star formation (LMSF) or they can trigger it. | ||
| − | + | ==''High Level Summary''== | |
| + | Pressure induced by winds and radiation from high mass stars and by radiation can sweep away low density clouds surrounding low mass stars, but can also collapse the surrounding clouds and start low mass star formation (LMSF) in the cores of these remnant clouds. Cometary globules in places like the Gum Nebula are perfect places to study this triggered LMSF. CGs are evaporating molecular cloud cores with head-tail geometry. The head points towards the HMS source of the winds and radiation causing the evaporation. | ||
| − | + | ==''What they did''== | |
| + | They analyzed X-Ray ROSAT/HRI data, Optical Data for photometry from CTIO/0.9m, and Near-IR using JHK images from the CIRIM detector on the CTIO/1.5m telescope. | ||
| − | + | ==''Most Interesting''== | |
| + | Section 3.2 addresses our CG4. They did optical photometry. | ||
| − | + | ==''I agree with this''== | |
| − | + | ==''I disagree with this''== | |
| + | Did they get different object data on different telescopes of the same or different regions. I'll explain better on the phone. | ||
| − | + | ==''Why we should care''== | |
| + | Summary states that "There are indeed candidate PMS stars in .... CG4 ..... They think there are a few PMS stars in CG4; that there are none around the eroded head of CG4 and suggest that there is an age gradient from the head to the tail. The suggested explanation is that the LMSF in the region may have been gradual and under the influence of the high mass stars in Vela OB2. | ||
| − | For Apr 28: | + | =For Apr 28: CHELEN -- Kim 2005 = |
| − | + | http://adsabs.harvard.edu/abs/2005AJ....129.1564K | |
| − | |||
| − | + | ==''Main Point''== | |
| − | + | ==''High Level Summary''== | |
| − | + | ==''Most Interesting''== | |
| − | + | ==''I agree with this''== | |
| − | + | ==''I disagree with this''== | |
| − | + | ==''Why we should care''== | |
| − | For May 5: | + | =For May 5: CAROLYN -- Choudhury and Bhatt 2008 = |
| − | + | http://arxiv.org/PS_cache/arxiv/pdf/0811/0811.4389v1.pdf | |
| − | + | the ADS entry is http://adsabs.harvard.edu/abs/2009MNRAS.393..959C and I downloaded the real journal article for you (easier to read!) here: [[media:choud.pdf]] | |
| − | |||
| − | |||
| − | + | ==''Main Point''== | |
| − | + | ==''High Level Summary''== | |
| − | + | ==''Most Interesting''== | |
| − | + | ==''I agree with this''== | |
| − | + | ==''I disagree with this''== | |
| − | + | ==''Why we should care''== | |
Latest revision as of 22:57, 21 April 2010
Contents
For Apr 14: KEVIN -- Reipurth and Pettersson 1993
Main Point
Found 8 new YSOs in Gum Nebula (near CG4 and Sa101 and CG13) using IR photometry, UBV photometry and spectroscopy.
High Level Summary
Surveyed 5 fields with 15 cometary globules Found 8 new YSOs Confirmed one previous YSO
Equipment Used
Ha spectroscopy CTIO 60/90cm Curtis Schmidt telescope with 6deg prism 1-2hrs JHK IR photometry (sort of like us) ESO 1m J-H and H-K UBV photometry (like us) ESO 1m Point source spectroscopy ESO 1.52m and 3.6m 3700A to 7000A 10-40 min
found there are different ages (spectra and movement away from globule) Found late-type premain sequence stars
Identified spectral type using spectra ruled out forground/background with spectra and
Most Interesting
Introduction: Good description of cometary nebulae Good rundown of CG formation theory
1. OB starformed nearby and the UV radiation scrunched and eroded nearby nebula (some evidence in this paper for this method) 2. or SN went off nearby and shockwave scrunched and eroded nearby nebula
CG4 might have been evaporating for 1,000,000years
CG4 might have been a shade for Sa101 to hide behind. Until the
CG4 evaporation may have started >1,000,000 years ago.
In faint background stars they found stars becoming more prominent as they used longer wavelength filters (good for us)
Spectral classes
M3 to K7
M2, M3-4, K7-M0, K7, K2-5, K5, M1-2, K2
Not sure about this
Questions and Kevin trying to dodge the answers
TiO and MgH using the width and
Ha
width of line (spinning?)
Balmer series forbidden [OI] linesat 6300 and 6363A prominent absorption at 5577A absorbtion trough at 6200A deeper
I agree with this
found eight new YSOs in the area confirmed one previous YSO found there are different ages (spectra and movement away from globule) Found late-type premain sequence stars
I disagree with this
found there are different ages (spectra and movement away from globule) probably continuous (from 8 stars?)
Why we should care
found seven new YSOs in the area confirmed one previous YSO Used some of the same techniques we will Found YSOs and confirmed previous ones Found faint background stars getting more prominent in longer wavelength filters Not all CG had star formation but CG4 was one that had some nearby
For Apr 21: VIVIAN -- Kim et al 2003
http://adsabs.harvard.edu/abs/2003csss...12..799K Full Paper link click here. [1]
Main Point
High mass stars can terminate low mass star formation (LMSF) or they can trigger it.
High Level Summary
Pressure induced by winds and radiation from high mass stars and by radiation can sweep away low density clouds surrounding low mass stars, but can also collapse the surrounding clouds and start low mass star formation (LMSF) in the cores of these remnant clouds. Cometary globules in places like the Gum Nebula are perfect places to study this triggered LMSF. CGs are evaporating molecular cloud cores with head-tail geometry. The head points towards the HMS source of the winds and radiation causing the evaporation.
What they did
They analyzed X-Ray ROSAT/HRI data, Optical Data for photometry from CTIO/0.9m, and Near-IR using JHK images from the CIRIM detector on the CTIO/1.5m telescope.
Most Interesting
Section 3.2 addresses our CG4. They did optical photometry.
I agree with this
I disagree with this
Did they get different object data on different telescopes of the same or different regions. I'll explain better on the phone.
Why we should care
Summary states that "There are indeed candidate PMS stars in .... CG4 ..... They think there are a few PMS stars in CG4; that there are none around the eroded head of CG4 and suggest that there is an age gradient from the head to the tail. The suggested explanation is that the LMSF in the region may have been gradual and under the influence of the high mass stars in Vela OB2.
For Apr 28: CHELEN -- Kim 2005
http://adsabs.harvard.edu/abs/2005AJ....129.1564K
Main Point
High Level Summary
Most Interesting
I agree with this
I disagree with this
Why we should care
For May 5: CAROLYN -- Choudhury and Bhatt 2008
http://arxiv.org/PS_cache/arxiv/pdf/0811/0811.4389v1.pdf the ADS entry is http://adsabs.harvard.edu/abs/2009MNRAS.393..959C and I downloaded the real journal article for you (easier to read!) here: media:choud.pdf
