The spectral-curvature parameter: an alternative tool for the analysis of synchrotron spectra
Abstract
The so-called Spectral Curvature Parameter(SCP), when plotted versus the high-frequency spectral index (alphahigh) of synchrotron sources, provides crucial parameters on the continuum spectrum of synchrotron radiation without the more complex modeling of spectral ageing scenarios. An important merit of the SCP-alpha diagram is the enhanced reliability of extracting multiple injection spectra, alphainj. Different from the colour-colour diagram, tracks of different alphainjs, especially when the synchrotron particles are young, exhibit less overlap and less smearing in the SCP-alpha diagram. Three giant radio galaxies(GRGs) and a sample of Compact steep spectrum(CSS) souces are presented. GRGs exhibit asymmetries of their injection spectral indices alphainj in the SCP-alphahigh diagram. The obtained alphainjs and the trends in the sources are cross-checked with the literature and show remarkable confidence. Besides the spectral steepening, spectral flattening is prominent in the radio lobes. The spectral flattening is a clue to efficient re-acceleration processes in the lobes. It implies interaction with the surrounding intergalactic or intra-cluster medium is an important characteristic of GRGs. In the SW lobe of DA240, there is a clear sign of CI and KP/JP bifurcation at the source extremity. This indicates a highly relativistic energy transportation from the core or in situ acceleration in this typical FR I lobe. Our analysis proves, if exists, KP spectra imply the existence of strong Bsync field with Bsync > BCMB. In the CSS sources, our result confirms the CI model and Bsync >> BCMB. The synchrotron self-absorption is significant in the CSS sample.
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