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Magnetic Fields in T Tauri Disks A. Meredith Hughes Wesleyan University What Millimeter Polarimetry Can Tell Us Chat Hull, David Wilner, Sean Andrews,

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Presentation on theme: "Magnetic Fields in T Tauri Disks A. Meredith Hughes Wesleyan University What Millimeter Polarimetry Can Tell Us Chat Hull, David Wilner, Sean Andrews,"— Presentation transcript:

1 Magnetic Fields in T Tauri Disks A. Meredith Hughes Wesleyan University What Millimeter Polarimetry Can Tell Us Chat Hull, David Wilner, Sean Andrews, Jungyeon Cho, Dick Plambeck, Dan Marrone, Ram Rao, Alex Lazarian

2 Circumstellar disks as accretion disks Balbus & Hawley (1991), Stone et al. (2000) Theories of disk evolution generally invoke MRI-driven turbulence as source of anomalous viscosity. The mass distribution in a disk changes over time as material is transported by viscosity of unspecified origin. What is observable? B-field needed to drive MRI Aligned dust grains should generate polarized emission Turbulence that generates viscosity Nonthermal widths of molecular lines HD 163296 CO(3-2)

3 History: Single-dish observations Tentative (3 ) 3% polarization detection in two T Tauri disks with JCMT Tamura et al. (1999) Previously: HL Tau and an upper limit on GG Tau Tamura et al. (1995)

4 First realistic models of polarized emission from disks predict 2-3% polarization at mm wavelengths Grains aligned by radiative torque Chiang & Goldreich disk model Toroidal B-field Cho & Lazarian (2007) Theory: Predicting Resolved Observations

5 Instrumentation: The SMA Polarimeter Marrone & Rao (2008)

6 New Observations

7 HD 163296 Hughes et al. (2009) Round 1: Two Disks with the SMA

8 TW Hya Hughes et al. (2009) Round 1: Two Disks with the SMA

9 The Plot Thickens: DG Tau at 350 μ m Krejny et al. (2009) Same source, similar resolution, shorter wavelength… No polarization!

10 Round 2: Plugging the Gaps And now, the field is a mess! Tamura et al. (1995, 1999) – 3σ polarization detections in 2-3 T Tauri sources – Indicate toroidal magnetic field Krejny et al. (2009) – Revisited one source, different wavelength – No polarization Hughes et al. (2009) – Two new sources – No polarization

11 Round 2: Plugging the Gaps Hughes et al. (2013)

12 Does size matter? Two possibilities: 1)JCMT detections were spurious (low-significance, after all…) 2)Continuum emission is polarized only on large (~1000 AU) scales

13 A quick word about TADPOL Hull et al. (2013)

14 Model Comparison

15 Turning Knobs Identify model inputs that most strongly affect pol %, given Stokes I 1) Grain elongation 2) Alignment efficiency 3) Grain size distribution 4) B-field strength 5) B-field regularity 6) Scattering… Hughes et al. (2009) Cho & Lazarian (2007)

16 The Future: Polarization with ALMA IF grains are aligned but fields are tangled, then it is worthwhile to push to higher angular resolution < scale height (easier) IF grains are not aligned, then next best bet may be Zeeman effect in CN, to get los magnetic field (harder) Falgarone et al. (2008)

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