Abstract
Protostellar jets are one of the primary signposts of star formation. A handful of protostellar objects exhibit radio emission from ionized jets, of which a few display negative spectral indices, indicating the presence of synchrotron emission. In this study, we characterize the radio spectra of HH80-81 jet with the help of a numerical model that we have developed earlier, which takes into account both thermal free–free and non-thermal synchrotron emission mechanisms. For modeling the HH80-81 jet, we consider jet emission towards the central region close to the driving source along with two Herbig-Haro objects, HH80 and HH81. We have obtained the best-fit parameters for each of these sources by fitting the model to radio observational data corresponding to two frequency windows taken across two epochs. Considering an electron number density in the range of $$10^3$$ – $$10^5$$ cm $$^{-3}$$ , we obtained the thickness of the jet edges and fraction of relativistic electrons that contribute to non-thermal emission in the range of $$0.01^{\circ }$$ – $$0.1^{\circ }$$ and $$10^{-7}$$ – $$10^{-4}$$ , respectively. For the best-fit parameter sets, the model spectral indices lie in the range of − 0.15 to $$+$$ 0.11 within the observed frequency windows.
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