| الوصف: |
Fluctuation theorems establish connections between fluctuations and irreversibility by considering stochastic thermodynamic quantities. In this study, we derive special relativistic covariant fluctuation theorems by defining covariant work, heat, and entropy. We focus on a driven scalar field in contact with a Markovian heat bath. For moving inertial observers relative to the heat bath, both the energy components and the momentum components of work and heat must be included to formulate the corresponding fluctuation theorems, and the four-velocity of the heat bath plays an important role. It turns out that, the irreversibility is characterized by the conventional thermodynamic quantities in the rest reference frame of the heat bath, regardless of the reference frame of the observer. Even in the nonrelativistic case, the above identification is nontrivial. We study the work statistics for a Klein-Gordon field in a driving process measured by a moving inertial observer to explicitly verify the covariant version of the Jarzynski equality. |
