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21 October 19991 Introduction to M4 Science Observe 95  m Polarized Radiation l Map the “Magnetic Field of the Milky Way” (Central 100 degrees in l and.

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Presentation on theme: "21 October 19991 Introduction to M4 Science Observe 95  m Polarized Radiation l Map the “Magnetic Field of the Milky Way” (Central 100 degrees in l and."— Presentation transcript:

1 21 October 19991 Introduction to M4 Science Observe 95  m Polarized Radiation l Map the “Magnetic Field of the Milky Way” (Central 100 degrees in l and 10 degrees in b) l Technique for Constructing 3-D Field Relies on FIR/CO Associations l Detailed Studies of B in selected Supershells (Cirrus), Star-forming Regions, and External Galaxies

2 The 20th Century Magnetic Field of the Milky Way Serkowski, Mathewson & Ford, et al. See Heiles for more, later.

3 21 October 19993 Summary of Method

4 Milky Way Polarimetric Discoveries 1997-99 summarized by Alyssa Goodman Harvard University

5 21 October 19995 Grain Alignment l Role of Radiative Torques (Draine, Weingartner, Lazarian) l Spectral Dependence of Thermal Emission Polarization (Hildebrand et al. 1999; see Dowell) l Global Polarization-Extinction Relation (Arce et al. 1998; Goodman 1999)

6 Radiative Torques on “Helical” Grains l Non-Davis- Greenstein processes likely dominate ( see Draine, Weingartner,Lazarian ) l Rapid alignment of grains in less than dim regions Draine & Weingartner, 1997

7 Dark Cloud Complexes: 1-10 pc scales

8 “Go no further than A V ~1.3 mag.” 3.0 2.5 2.0 1.5 1.0 0.5 0.0 P R [%] 43210 43210 A V [mag] Background to Cold Dark Cloud Arce et al. 1998 Background to General ISM

9

10 21 October 199910 Developments in Star-forming Regions l Interferometric Polarimetry of Outflow/Disk Sources (OVRO: Akeson et al. 1996; BIMA: Rao et al. 1998; see Myers) l Polarized Spectral-line Emission (BIMA: Girart et al. 1999) l Sub-mm (SCUBA) Polarimetry of Massive, and now Low- Mass, SFRs (e.g. Matthews & Wilson 1999; see Greaves)

11 Zooming on Orion BN/KL Schleuning 1998 Rao et al. 1998 BIMA Interferometer STOKES on KAO M4 Beam

12 21 October 199912 On a Galactic Scale l Rand & Lyne (94) Pulsar RM/DM Mapping of B l Reid & Menten update of Galactic B from H 2 O Masers (in prep.) l Heiles’ Re-analysis of Galactic Plane Background Starlight Polarimetry Surveys (see Heiles) l SCUBA Polarimetry of the Galactic Center (see Greaves)

13 21 October 199913 On a Galactic Scale Rand & Lyne 1994

14 On a Galactic Scale Rand & Lyne 1994

15 21 October 199915 On a Universal Scale l Connection to CMB Polarimetry (see Lazarian) l Our signal is their “foreground,” and we have MUCH better polarimetric sensitivity and resolution. l MAP launch November 2000 l Any light on galactic dynamo issues/origin of galactic fields (ask Zweibel)?

16 What can we expect? 2 4 6 8 1 2 4 6 8 10 2 4 6 8 100 2 p max [%] 0.11101001000 E B-V [mag] 0.11101001000 A V [mag] 0.010.1110100  K P V Theoretical Maximum 100  m in Massive SFR p V Cold Dark Clouds p V Low-Density ISM BIMA Millimeter Orion Observations P 100  m Semi-Empirical Maximum Figure from Goodman 1999.

17 What can we expect? Polarization of Background Starlight in M17 (Schulz et al. 1981) Polarization of 100mm Dust Emission in M17 (Dotson 1994) Declination (1950) Right Ascension (1950) B? Declination (1950) 4% See Kristen, Goodman, Jones & Myers1999.

18 H 2 “Background” Polarimetry: OrionOrion Chrysostomou al. 1994

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