A tempered stable Lévy process combines both the α–stable and Gaussian trends. In a short time frame it is close to an α–stable process while in a long time frame it approximates a Brownian motion. In this paper we consider a general and robust class of multivariate tempered stable distributions and establish their identifiable parametrization. We prove short and long
time behavior of tempered stable Lévy processes and investigate their absolute continuity with respect to the underlying α–stable processes. We find probabilistic representations of tempered stable processes which specifically show how such processes are obtained by cutting (tempering) jumps of stable processes. These representations exhibit α–stable and Gaussian tendencies in tempered stable distributions and processes and thus give probabilistic intuition for their
study. Such representations can also be used for simulation. We also develop the corresponding
representations for Ornstein–Uhlenbeck–type processes.
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