http://arxiv.org/abs/2003.06012
The recent spatial and temporal coincidence of the blazar TXS 0506+056 with the IceCube detected neutrino event IC-170922A, has opened up a realm of multi-messenger astronomy with blazar jets as a plausible site of cosmic-ray acceleration. After TXS 0505+056, for the first time, a second blazar, BZB J0955+3551, has recently been found to be spatially coincident with the IceCube detected neutrino event IC-200107A and undergoing its brightest X-ray flare measured so far. Here, we present the results of our multi-frequency campaign to study this peculiar event that includes observations from NuSTAR, Swift, NICER, and 10.4 m Gran Telescopio Canaris (GTC). The optical spectroscopic observation from GTC secured its redshift as $z=0.5573$. Both NuSTAR and NICER data reveal a rapid flux variability albeit at low-significance ($\lesssim3.5\sigma$). We explore the origin of the target photon field needed for the photo-pion production using analytical calculations and considering the observed optical-to-X-ray flux level and conclude that seed photons must come from outside the jet, similar to that reported for TXS 0506+056. We find that there could be a sub-dominant hadronic population responsible for the neutrino emission.
V. Paliya, M. Böttcher, A. García, et. al.
Mon, 16 Mar 20
41/57
Comments: Submitted to ApJ