http://arxiv.org/abs/1808.01913
The equipartition of magnetic and thermal energy in interstellar medium (ISM) indicates the magneto-hydrodynamic nature of the interstellar turbulence, which can be decomposed into three wave modes: Alfv\’en, fast and slow magnetosonic modes. Even for studies performed in the case of subsonic turbulence, the magnetosonic modes have been revealed to be more effective than the Alfv\’enic modes for processes such as cosmic ray transport and acceleration. The multiphase nature of ISM and diversity of driving mechanisms give rise to spatial variation of turbulence properties. Nevertheless, the employed model of magneto-hydrodynamic turbulence is often oversimplified being assumed to be only Alfv\’enic due to a lack of observational evidence to the contrary. Here we report the first use of our novel method, the signature from polarization analysis (SPA), on unveiling the plasma modes in interstellar turbulence. Its application leads to the first discovery of magnetosonic modes in the Orion Nebulae, Cygnus X region and Northern Galactic Halo. Through comparison with the spectrum at other wavelengths, our results unexpectedly disclose that active star formation zones are dominated by the magnetosonic modes. The SPA sheds light on the hitherto unknown plasma modes composition of the Galactic turbulence, and marks the onset of a new era in the study of interstellar turbulence and accordingly our understanding of star formation and cosmic ray transport.
H. Zhang, A. Chepurnov, H. Yan, et. al.
Tue, 7 Aug 18
28/68
Comments: N/A