This paper investigates the deposition of the tear film on the cornea of the human eye. The tear film is laid down by the motion of the upper eyelid and then subsequently flows and thins. Of particular interest is the stability of the tear layer and the development of dry patches on the cornea. While there has been significant research on the behaviour of tear films between blinks, this paper focuses on understanding the mechanisms which control the shape and thickness of the deposited film and how this affects the subsequent film behaviour. Numerical and analytical methods are applied to a lubrication model which includes the effects of surface tension, viscosity, gravity and evaporation. The model reveals the importance of the eyelid velo...
Abstract In this paper, current understanding of tear film physiology and mathematical models for so...
In this paper, current understanding of tear film physiology and mathematical models for some its dy...
We investigate the dynamics of the human multilayer tear film, subject to a reservoir of lipid at th...
This paper investigates the deposition of the tear film on the cornea of the human eye. The tear fil...
This paper investigates the deposition of the tear film on the cornea of the human eye. The tear fil...
This paper investigates the deposition of the tear film on the cornea of the human eye. The tear fil...
This paper investigates the deposition of the tear film on the cornea of the human eye. The tear fil...
This paper investigates the deposition of the tear film on the cornea of the human eye. The tear fil...
In this paper, current understanding of tear film physiology and mathematical models for some its dy...
In this paper, current understanding of tear film physiology and mathematical models for some its dy...
Based on lubrication theory, an elastohydrodynamic model of the human tear film is presented. Using ...
This paper investigates the effect of surfactants during tear film deposition and subsequent thinnin...
This paper investigates the effect of surfactants during tear film deposition and subsequent thinnin...
This paper investigates the effect of surfactants during tear film deposition and subsequent thinnin...
Based on lubrication theory, an elastohydrodynamic model of the human tear film is presented. Using ...
Abstract In this paper, current understanding of tear film physiology and mathematical models for so...
In this paper, current understanding of tear film physiology and mathematical models for some its dy...
We investigate the dynamics of the human multilayer tear film, subject to a reservoir of lipid at th...
This paper investigates the deposition of the tear film on the cornea of the human eye. The tear fil...
This paper investigates the deposition of the tear film on the cornea of the human eye. The tear fil...
This paper investigates the deposition of the tear film on the cornea of the human eye. The tear fil...
This paper investigates the deposition of the tear film on the cornea of the human eye. The tear fil...
This paper investigates the deposition of the tear film on the cornea of the human eye. The tear fil...
In this paper, current understanding of tear film physiology and mathematical models for some its dy...
In this paper, current understanding of tear film physiology and mathematical models for some its dy...
Based on lubrication theory, an elastohydrodynamic model of the human tear film is presented. Using ...
This paper investigates the effect of surfactants during tear film deposition and subsequent thinnin...
This paper investigates the effect of surfactants during tear film deposition and subsequent thinnin...
This paper investigates the effect of surfactants during tear film deposition and subsequent thinnin...
Based on lubrication theory, an elastohydrodynamic model of the human tear film is presented. Using ...
Abstract In this paper, current understanding of tear film physiology and mathematical models for so...
In this paper, current understanding of tear film physiology and mathematical models for some its dy...
We investigate the dynamics of the human multilayer tear film, subject to a reservoir of lipid at th...