TL;DR
This paper reviews jets across different scales, focusing on black hole systems, discussing their properties, dynamics, interactions, and implications of recent observations, with insights into multi-messenger approaches.
Contribution
It provides a comprehensive overview of jet physics, including scaling relations and environmental interactions, highlighting recent observational insights.
Findings
Scaling relations reveal basic properties of jet engines.
Relativistic jet kinematics and energy dissipation mechanisms are discussed.
Interactions between jets and their environments influence jet evolution.
Abstract
A brief overview of jets and their central drivers is presented, with a focus on accreting black hole systems. In particular, scaling relations that elucidate some basic properties of the engines are derived, and the implications for the associated outflows are discussed. The kinematics and dynamics of relativistic jets in various systems and the dissipation of their bulk energy is considered, with an emphasis on consequences of recent observations. Also considered is the interaction of the jets with their environment. Comments on multi-messenger probes are made at the end.
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