Evidence for a Weak Galactic Center Magnetic Field from Diffuse Low Frequency Nonthermal Radio Emission
Abstract
New low-frequency 74 and 330 MHz observations of the Galactic center (GC) region reveal the presence of a large-scale (6× 2) diffuse source of nonthermal synchrotron emission. A minimum energy analysis of this emission yields a total energy of (φ4/7f3/7)× 1052 ergs and a magnetic field strength of 6(φ/f)2/7 μG (where φ is the proton to electron energy ratio and f is the filling factor of the synchrotron emitting gas). The equipartition particle energy density is 1.2(φ/f)2/7 , a value consistent with cosmic-ray data. However, the derived magnetic field is several orders of magnitude below the 1 mG field commonly invoked for the GC. With this field the source can be maintained with the SN rate inferred from the GC star formation. Furthermore, a strong magnetic field implies an abnormally low GC cosmic-ray energy density. We conclude that the mean magnetic field in the GC region must be weak, of order 10 μG (at least on size scales 125).
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