In this paper, we present a refined framework for the global-in-time well-posedness theory for the pressureless Euler–Navier–Stokes system and the optimal temporal decay rates of certain norms of solutions. Here the coupling of two systems, pressureless Euler system and incompressible Navier–Stoke system, is through the drag force. We construct the global-in-time existence and uniqueness of regular solutions for the pressureless Euler–Navier–Stokes system without using a priori large time behavior estimates. Moreover, we seek for the optimal Sobolev regularity for the solutions. Concerning the temporal decay for solutions, we show that the fluid velocities exhibit the same decay rate as that of the heat equations. In particular, our result provides that the temporal decay rate of difference between two velocities, which is faster than the fluid velocities themselves, is at least the same as the second-order derivatives of fluid velocities.
We thank Kyungkeun Kang for helpful conversations regarding the large time behavior estimates for the incompressible Navier\\u2013Stokes equations. The work of Y.-P. Choi was supported by NRF grant (No. 2022R1A2C1002820). The work of J. Kim was supported by a KIAS Individual Grant (MG086501) at Korea Institute for Advanced Study.
