Add to ORKGNumerical simulations of lubrication models provide clues for experimentalists about the development of wave structures in thin liquid films. We analyze numerical simulations of a lubrication model for an inclined thin liquid film modified by Marangoni forces due to a thermal gradient and additional localized forcing heating the substrate. Numerical results can be explained through connections to theory for hyperbolic conservation laws predicting wave fronts from Marangoni-driven thin films without forcing. We demonstrate how a variety of forcing profiles, such as Gaussian, rectangular, and triangular, affect the formation of downstream transient structures, including an N wave not commonly discussed in the context of thin films. Simulation...
Recent experimental and theoretical efforts have revealed the existence of a fingering instability a...
The study of driven liquid films dates back several decades. There is a well-known lubrication analy...
The modeling of the motion of a contact line, the triple point at which solid, liquid and air meet, ...
Thin liquid films driven up an inclined plane by temperature-induced sur-face tension gradients have...
We consider the use of localized Marangoni forcing to produce a thermocapillary "microfluidic valve"...
<p>Thin liquid films are often studied by reducing the Navier-Stokes equations</p><p>using Reynolds ...
We investigate wave solutions of a lubrication model for surfactant-driven flow of a thin liquid fil...
We study a 2-D nonlinear evolution equation which describes the 3-D spatiotemporal behavior of the a...
© 2019 by the authors. The evolution of a thin liquid film subject to a volatile solvent source and ...
Differential surface tension is a common phenomenon in many chemical and biomedical processes. Local...
Differential surface tension is a common phenomenon in many chemical and biomedical processes. Loca...
Based on an approach used to model environmental flows such as rivers and estuaries, we develop a ne...
We study large scale surface deformations of a liquid film unstable due to the Marangoni effect cau...
Based on an approach used to model environmental flows such as rivers and estuaries, we develop a ne...
We revisit the situation of a thin liquid film driven up an inclined substrate by a thermally induce...
Recent experimental and theoretical efforts have revealed the existence of a fingering instability a...
The study of driven liquid films dates back several decades. There is a well-known lubrication analy...
The modeling of the motion of a contact line, the triple point at which solid, liquid and air meet, ...
Thin liquid films driven up an inclined plane by temperature-induced sur-face tension gradients have...
We consider the use of localized Marangoni forcing to produce a thermocapillary "microfluidic valve"...
<p>Thin liquid films are often studied by reducing the Navier-Stokes equations</p><p>using Reynolds ...
We investigate wave solutions of a lubrication model for surfactant-driven flow of a thin liquid fil...
We study a 2-D nonlinear evolution equation which describes the 3-D spatiotemporal behavior of the a...
© 2019 by the authors. The evolution of a thin liquid film subject to a volatile solvent source and ...
Differential surface tension is a common phenomenon in many chemical and biomedical processes. Local...
Differential surface tension is a common phenomenon in many chemical and biomedical processes. Loca...
Based on an approach used to model environmental flows such as rivers and estuaries, we develop a ne...
We study large scale surface deformations of a liquid film unstable due to the Marangoni effect cau...
Based on an approach used to model environmental flows such as rivers and estuaries, we develop a ne...
We revisit the situation of a thin liquid film driven up an inclined substrate by a thermally induce...
Recent experimental and theoretical efforts have revealed the existence of a fingering instability a...
The study of driven liquid films dates back several decades. There is a well-known lubrication analy...
The modeling of the motion of a contact line, the triple point at which solid, liquid and air meet, ...