In this paper we consider the solution formula for Stokes equation system without surface tension in half-space.  More precisely, we deal with the solution of velocity and density for the model problem. This result is the basic step to estimate the solution operator of the model problem. We investigate the solution operator for the model problem in N-Dimensional Euclidean space (N>=2)In this paper we consider the solution formula for Stokes equation system without surface tension in half-space.  More precisely, we deal with the solution of velocity and density for the model problem. This result is the basic step to estimate the solution operator of the model problem. We investigate the solution operator for the model problem in N-Dimensional Euclidean space ()

Stokes equations; half-space; N-dimensional Euclidean Space; Surface tension

A. I. Akhiezer, I. A. Akhiezer, and R. V. Polovin, Plasma Electrodynamics: Linear Theory, vol. 1. Elsevier, 2017.

M. Murata, “On a maximal Lp–Lq approach to the compressible viscous fluid flow with slip boundary condition,” Nonlinear Anal. Theory, Methods Appl., vol. 106, pp. 86–109, 2014.

S. Maryani, “On the free boundary problem for the Oldroyd-B Model in the maximal Lp–Lq regularity class,” Nonlinear Anal. Theory, Methods Appl., vol. 141, pp. 109–129, 2016.

S. Maryani and H. Saito, “On the $mathcal {R} $-boundedness of solution operator families for two-phase Stokes resolvent equations,” Differ. Integr. Equations, vol. 30, no. 1/2, pp. 1–52, 2017.

S. Inna, S. Maryani, and H. Saito, “Half-space model problem for a compressible fluid model of Korteweg type with slip boundary condition,” in Journal of Physics: Conference Series, 2020, vol. 1494, no. 1, p. 12014.

R. A. Adams and J. J. F. Fournier, Sobolev spaces. Elsevier, 2003.

D. Götz and Y. Shibata, “On the ℛ-boundedness of the solution operators in the study of the compressible viscous fluid flow with free boundary conditions,” Asymptot. Anal., vol. 90, no. 3–4, pp. 207–236, 2014.