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Frequency-dependent core shift

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Presentation on theme: "Frequency-dependent core shift"— Presentation transcript:

1 Frequency-dependent core shift
Jet apex is there Jet at ν1 Jet at ν2 < ν1 The “core” of a VLBI jet is located in a region with τ ~ 1 and changes its position with the observing frequency

2 Core shift vectors: polar plots
med ( GHz): 128 μas med ( GHz): 125 μas med ( GHz): 88 μas >80% sources within |θcore shift - θmed jet PA| < 45°

3 Magnetic field at 1 pc from jet apex
Magnetic field is derived for the sources with known apparent speed redshift core shift It total 102 sources: 84 QSO and 18 BLO median BQuasar ~ 0.9 G median BBL Lac ~ 0.4 G Why the magnetic field at 1 pc is stronger in quasars? more distant sources faster jets more massive central BHs and/or higher accretion rates? This scenario is supported by narrower intrinsic opening angles (Pushkarev et al. 2009)

4 Multi-frequency MOJAVE obs.
extended sample of 192 sources 12 epochs (BL137A-L) during 2006 polarimetric observations at 8.1, 8.4, 12.1 and 15.3 GHz Papers planned RM (Hovatta et al., submitted in AJ) Core shift (Pushkarev et al., submitted to A&A) Spectral index (Hovatta et al. in prep.)

5 Core shift measurement method
core phase center offset image shift core shift = image shift – core phase center offset (from 2D) (from modelfit)

6 Accuracy of the method: approach 2
Let’s assume: the core shift is along the jet the accuracy is direction irrespective SD of transverse projections of the core shift vectors  accuracy σ ~ 50 μas, σ ~ 51 μas, σ ~ 35 μas

7 Core shift vs redshift Kendall’s tau: chance p:

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