Changes between Version 10 and Version 11 of u/erica/CFLiterature


Ignore:
Timestamp:
01/07/15 18:35:51 (10 years ago)
Author:
Erica Kaminski
Comment:

Legend:

Unmodified
Added
Removed
Modified
  • u/erica/CFLiterature

    v10 v11  
    11
    22'''2008'''[[br]]
    3 '''[http://adsabs.harvard.edu/abs/2008ApJ...687..354N Magnetically Regulated Star Formation in Three Dimensions: The Case of the Taurus Molecular Cloud Complex], ''Nakamura, Fumitaka; Li, Zhi-Yun'' '''[[br]] Model strong fields + diffuse clouds, motivated by observations of Taurus & Pipe Nebula which show large scale ordered fields that run perpendicular to diffuse elongated clouds. Sims include ambipolar diffusion and outflow feedback. Find that ~1% of the [https://astrobear.pas.rochester.edu/trac/wiki/u/erica/SFHotConcepts#MagneticallyCritical magnetically critical] gas is turned into stars [https://astrobear.pas.rochester.edu/trac/wiki/u/erica/SFHotConcepts#Starformationrateperlocalfreefalltime per local free-fall time]. This slow star formation takes place in only marginally supersonic condensations, suggesting that magnetic fields are primarily responsible for SF regulation, rather than turbulence. Notable figures [https://astrobear.pas.rochester.edu/trac/wiki/u/erica/CFLitPaperFigures#MagneticallyRegulatedStarFormationinThreeDimensions:TheCaseoftheTaurusMolecularCloudComplex here], more notes [https://astrobear.pas.rochester.edu/trac/wiki/u/erica/CFLitPaperNotes#MagneticallyRegulatedStarFormationinThreeDimensions:TheCaseoftheTaurusMolecularCloudComplex here][[br]]
     3'''[http://adsabs.harvard.edu/abs/2008ApJ...687..354N Magnetically Regulated Star Formation in Three Dimensions: The Case of the Taurus Molecular Cloud Complex], ''Nakamura, Fumitaka; Li, Zhi-Yun'' '''[[br]] Model strong fields + diffuse clouds, motivated by observations of Taurus & Pipe Nebula which show large scale ordered fields that run perpendicular to diffuse elongated clouds. Sims include ambipolar diffusion and outflow feedback. Find that once clouds are marginally [https://astrobear.pas.rochester.edu/trac/wiki/u/erica/SFHotConcepts#MagneticallyCritical magnetically critical], stars begin to form in earnest. However, this accounts for only a small portion of the cloud; about ~1% of the gas [https://astrobear.pas.rochester.edu/trac/wiki/u/erica/SFHotConcepts#Starformationrateperlocalfreefalltime per local free-fall time]. This slow star formation takes place in only marginally supersonic condensations, suggesting that magnetic fields are primarily responsible for SF regulation, rather than turbulence. Notable figures [https://astrobear.pas.rochester.edu/trac/wiki/u/erica/CFLitPaperFigures#MagneticallyRegulatedStarFormationinThreeDimensions:TheCaseoftheTaurusMolecularCloudComplex here], more notes [https://astrobear.pas.rochester.edu/trac/wiki/u/erica/CFLitPaperNotes#MagneticallyRegulatedStarFormationinThreeDimensions:TheCaseoftheTaurusMolecularCloudComplex here][[br]]
    44
    55