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A Survey of the Global Magnetic Fields of Giant Molecular Clouds Giles Novak, Northwestern University Instrument: SPARO Collaborators: P. Calisse, D. Chuss,

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Presentation on theme: "A Survey of the Global Magnetic Fields of Giant Molecular Clouds Giles Novak, Northwestern University Instrument: SPARO Collaborators: P. Calisse, D. Chuss,"— Presentation transcript:

1 A Survey of the Global Magnetic Fields of Giant Molecular Clouds Giles Novak, Northwestern University Instrument: SPARO Collaborators: P. Calisse, D. Chuss, M. Krejny, H. Li

2 CO J=1-0 emission from GMCs in the Perseus arm (~ 2 kpc) -- low overall star formation efficiency: -- mechanical support by magnetic fields? (e.g., Shu et al. ‘87; Mouschovias & Ciolek ‘99; Basu & Ciolek ‘04) -- are GMCs dynamic structures? (e.g., Hartmann et al. `01; Elmegreen & Scalo `04; Mac Low & Klessen `04) ( Brunt & Heyer 2002 )

3 Ostriker, Stone, & Gammie (2001) simulated GMC 3-d MHD code; compressible; has self-gravity; Isothermal this map assumes strong B-field can reproduce size/line-width relationship that is observed in real GMCs

4 Ostriker, Stone, & Gammie (2001) simulated GMC 3-d MHD code; compressible; has self-gravity; Isothermal this map assumes strong B-field can reproduce size/line-width relationship that is observed in real GMCs dynamical collapse: role of B-field; transport of angular momentum: (Allen, Li & Shu ’03) turbulence can affect ang. mom. transport: (Ballesteros-Paredes et al. ’06) IMF: from turbulent fragmentation (Padoan & Nordlund ’02) magnetic levitation? (Shu et al. ’04)

5 data from SPARO 2003 winter-over ( Li et al. 2006 Ap.J. )   we observed four GMCs in the Galactic disk   each map covers hundreds of sq. arcmin   total number of polarization detections: 130   median degree of polarization: P = 2.0%

6 -- next: we focus on internal structure of field -- Carina is different; very advanced stage of star formation -- G331.5 lies at 5.3 kpc Carina Nebula G 333.6 G 331.5 NGC 6334 histograms of B-field direction for each GMC

7 -- next: we focus on internal structure of field -- Carina is different; very advanced stage of star formation -- G331.5 lies at 5.3 kpc Carina Nebula G 333.6 G 331.5 NGC 6334 histograms of B-field direction for each GMC   = 22.3°   = 21.6°

8 dispersion in field direction vs. energy density of uniform field   101100 50° 20° 10°  30° 5°5°

9 dispersion in field direction vs. energy density of uniform field   101100 50° 20° 10°  30° 5°5° mod. C.F.

10 dispersion in field direction vs. energy density of uniform field   101100 50° 20° 10°  30° 5°5° mod. C.F.

11 dispersion in field direction vs. energy density of uniform field   101100 50° 20° 10°  30° 5°5° mod. C.F. Problems: 1 - inclination of B unif 2 - beam dilution

12 dispersion in field direction vs. energy density of uniform field   101100 50° 20° 10°  30° 5°5° mod. C.F. Problems: 1 - inclination of B unif 2 - beam dilution

13 dispersion in field direction vs. energy density of uniform field   101100 50° 20° 10°  30° 5°5° mod. C.F. Problems: 1 - inclination of B unif 2 - beam dilution

14 dispersion in field direction vs. energy density of uniform field   101100 50° 20° 10°  30° 5°5° mod. C.F. Problems: 1 - inclination of B unif 2 - beam dilution

15 dispersion in field direction vs. energy density of uniform field   101100 50° 20° 10°  30° 5°5° mod. C.F. Problems: 1 - inclination of B unif 2 - beam dilution

16 conclusions from comparison with models : total magnetic energy density kinetic energy density -- consistent with Crutcher et al. (1999) -- not consistent with Padoan et al. (2001), Padoan & Nordlund (2002)

17 Is there continuity between GMC fields and larger-scale Galactic fields? Glenn et al. ‘99 … “…appear randomly oriented wrt plane…” Hildebrand ‘02 … “…apparently random orientation…” Searches for correlation of B GMC with orientation of Gal. plane:

18 Is there continuity between GMC fields and larger-scale Galactic fields? Glenn et al. ‘99 … “…appear randomly oriented wrt plane…” Hildebrand ‘02 … “…apparently random orientation…” Searches for correlation of B GMC with orientation of Gal. plane: B GMC from SPARO ( Li et al. `06 ApJ )

19 Is there continuity between GMC fields and larger-scale Galactic fields? Glenn et al. ‘99 … “…appear randomly oriented wrt plane…” Hildebrand ‘02 … “…apparently random orientation…” Searches for correlation of B GMC with orientation of Gal. plane: B GMC from SPARO ( Li et al. `06 ApJ ) NGC 6334 cloud

20 Conclusions from SPARO GMC survey i. i. For typical GMCs, the internal dispersion   in magnetic field direction is estimated to be ~ 28° ii. ii. By comparing this with the model of Ostriker et al. (2001) we infer that the total magnetic energy density is comparable to the kinetic energy density of turbulence. iii. iii. By considering the distribution of GMC mean field directions, and by comparing with optical polarimetry, we find evidence for continuity between GMC fields and Galactic fields.

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