Lorentz factor - Beaming Corrected Energy/Luminosity Correlations and GRB Central Engine Models

We work on a GRB sample whose initial Lorentz factors ($\Gamma_0$) are constrained with the afterglow onset method and the jet opening angles ($\theta_{\rm j}$) are determined by the jet break time. We confirm the $\Gamma_0$ - $E_{\gamma,\rm iso}$ correlation by Liang et al. (2010), and the $\Gamma_0$ - $L_{\gamma,\rm iso}$ correlation by L{\"u} et al. (2012). Furthermore, we find correlations between $\Gamma_0$ and the beaming corrected $\gamma$-ray energy ($E_{\gamma}$) and mean $\gamma$-ray luminosity ($L_{\gamma}$). By also including the kinetic energy of the afterglow, we find rough correlations (with larger scatter) between $\Gamma_0$ and the total ($\gamma$-ray plus kinetic) energy and the total mean luminosity, both for isotropic values and beaming corrected values: these correlations allow us to test the data with GRB central engine models. Limiting our sample to the GRBs that likely have a black hole central engine, we compare the data with theoretical predictions of two types of jet launching mechanisms from BHs, i.e. the non-magnetized $\nu \bar\nu$ - annihilation mechanism, and the strongly magnetized Blandford-Znajek (BZ) mechanism. We find that the data are more consistent with the latter mechanism, and discuss the implications of our findings for GRB jet composition.