Conditions for jet break-out in NS mergers

Abstract

We consider conditions for jet break-out through ejecta following mergers of neutron stars and provide simple relations for the break out conditions. We demonstrate that: (i) break-out requires that the isotropic-equivalent jet energy Ej exceeds the ejecta energy Eej by Ej ≥ Eej/ β0, where β0 = Vej/c, Vej is the maximum velocity of the ejecta. If the central engine terminates before the break out, the shock approaches the edge of the ejecta slowly 1/t; late break out occurs only if at the termination moment the head of the jet was relatively close to the edge. (ii) If there is a substantial delay between the ejecta's and the jet's launching, the requirement on the jet power increases. (iii) The forward shock driven by the jet is mildly strong, with Mach number M≈ 5/4 (increasing with time delay td); (iii) the delay time td between the ejecta and the jet's launching is important for td > t0= (3 /16 ) c Mej Vej/Lj = 1.01 sec Mej, -2 Lj, 51 -1 ( βej /0.3 ), where Mej is ejecta mass, Lj is the jet luminosity (isotropic equivalent). For small delays, t0 is also an estimate of the break-out time.