Objective
The project objective is to study the physical properties of the blazar jets at small scales by means of the observed blazar microvariability. Briefly, the microvariability (a.k.a. intra-day or intra-night variability) is a flux variation with amplitude up to tenths of magnitude over timescales from minutes to hours (i.e. low-amplitude flux variations within the night). The most popular model invoked to explain the microvariability is the turbulent jet model (e.g. Bhatta et al. 2013, A&A, 558, A92). Within this model, a plane shock hits a turbulent cell and accelerates (energizes) the cell electrons, which are then cooled by synchrotron rediation. In this way, a flux pulse is produced, which manifests itself as a flare on the blazar light curve. The flare parameters (timescales, peak flux, etc.), obtained after the intra-night light curve analysis, can be used to estimate the emitting region parameters (magnetic field strength, radius, etc.).
Header image: Cosmic Cliffs in the Carina Nebula as seen by the James Webb Space Telescope; credits: NASA, ESA, CSA, and STScI.