We explore alternative formulations of the analogy between viable Horndeski gravity and Eckart's first-order thermodynamics. We single out a class of identifications for the effective stress-energy tensor of the scalar field fluid that, upon performing the imperfect fluid decomposition, yields constitutive relations that can be mapped onto Eckart's theory. We then investigate how different couplings to Einstein's gravity, at the level of the field equations, can affect the thermodynamic formalism overall. Last, we specialize the discussion to the case of "traditional"scalar-tensor theories and identify a specific choice of the coupling function that leads to a significant simplification of the formalism.
Gallerani, L., Miranda, M., Giusti, A., Mentrelli, A. (2024). Alternative formulations of the thermodynamics of scalar-tensor theories. PHYSICAL REVIEW D, 110(6), 1-8 [10.1103/physrevd.110.064087].
Alternative formulations of the thermodynamics of scalar-tensor theories
Gallerani, Luca;Mentrelli, Andrea
2024
Abstract
We explore alternative formulations of the analogy between viable Horndeski gravity and Eckart's first-order thermodynamics. We single out a class of identifications for the effective stress-energy tensor of the scalar field fluid that, upon performing the imperfect fluid decomposition, yields constitutive relations that can be mapped onto Eckart's theory. We then investigate how different couplings to Einstein's gravity, at the level of the field equations, can affect the thermodynamic formalism overall. Last, we specialize the discussion to the case of "traditional"scalar-tensor theories and identify a specific choice of the coupling function that leads to a significant simplification of the formalism.| File | Dimensione | Formato | |
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