摘要：

Using high-resolution, two-dimensional hydrodynamical simulations, we investigate the evolution of a self-gravitating multiphase interstellar medium in the central kiloparsec region of a galactic disk. We find that a gravitationally and thermally unstable disk evolves, in a self-stabilizing manner, into a globally quasi-stable disk that consists of cold (T<100 K), dense clumps and filaments surrounded by hot (T>104 K), diffuse medium. The quasi-stationary, filamentary structure of the cold gas is remarkable. The hot gas, characterized by low-density holes and voids, is produced by shock heating. The shocks derive their energy from differential rotation and gravitational perturbations due to the formation of cold dense clumps. In the quasi-stable phase in which cold and dense clouds are formed, the effective stability parameter Q has a value in the range 2-5. The dynamic range of our multiphase calculations is 106-107 in both density and temperature. Phase diagrams for this turbul

展开