TY - JOUR
AU - Maryani, Sri
AU - Wardayani, Ari
AU - Renny, Renny
PY - 2024/05/06
Y2 - 2024/06/16
TI - Bent-half space model problem for Lame equation with surface tension
JF - New Zealand Journal of Mathematics
JA - NZ J Math
VL - 55
IS -
SE - Articles
DO - 10.53733/321
UR - https://nzjmath.org/index.php/NZJMATH/article/view/321
SP - 11--24
AB - <p>The study of fluid flow is a very fascinating area of fluid dynamics. Fluid motion has received more and more attention in recent years and numerous researchers have looked into this topic. However, they rarely used a mathematical analysis approach to analyse fluid motion; instead, they used numerical analysis. This serves as a significant justification for the researcher's decision to study fluid flow from the perspective of mathematical analysis. In this paper, we consider the ${\mathcal R}$-boundedness of the solution operator families of the Lam\'e equation with surface tension in bent half-space model problem by taking into account the surface tension in a bounded domain of {\it N}-dimensional Euclidean space ($N \geq 2$). The motion of the model problem can be described by linearizing an equation system of a model problem. This research is a continuation of [13]. They investigated the ${\mathcal R}$-boundedness of the solution operator families in the half-space case for the model problem of the Lam\'e equation with surface tension. First of all, by using Laplace transformation we consider the resolvent of the model problem, then treat the problem in bent half-space case. By using Weis's operator-valued Fourier multiplier theorem, we know that ${\mathcal R}$-boundedness implies the maximal $L_p$-$L_q$ regularity for the initial boundary value. This regularity is an essential tool for the partial differential equation problem.</p>
ER -