The evolution of far-infrared CO emission from protostars

Abstract

We investigate the evolution of far-IR CO emission from protostars observed with Herschel/PACS for 50 sources from the combined sample of HOPS and DIGIT Herschel key programs. From the uniformly sampled spectral energy distributions, we computed Lbol, Tbol and L bol/L smm for these sources to search for correlations between far-IR CO emission and protostellar properties. We find a strong and tight correlation between far-IR CO luminosity (L fir CO) and the bolometric luminosity (Lbol) of the protostars with L fir CO Lbol0.7. We, however, do not find a strong correlation between L fir CO and protostellar evolutionary indicators, Tbol and L bol/L smm. FIR CO emission from protostars traces the currently shocked gas by jets/outflows, and L fir CO is proportional to the instantaneous mass loss rate, Mout. The correlation between L fir CO and Lbol is indicative of instantaneous Mout tracking instantaneous Macc. The lack of correlation between L fir CO and evolutionary indicators Tbol and L bol/L smm suggests that Mout and, therefore, Macc do not show any clear evolutionary trend. These results are consistent with mass accretion/ejection in protostars being episodic. Taken together with the previous finding that the time-averaged mass ejection/accretion rate declines during the protostellar phase (e.g., Bontemps et al. 1996), our results suggest that the instantaneous accretion/ejection rate of protostars is highly time variable and episodic, but the amplitude and/or frequency of this variability decreases with time such that the time averaged accretion/ejection rate declines with system age.