论文信息 - Retinal-temperature increases produced by intense light sources.

Retinal-temperature increases produced by intense light sources.

The heat-conduction equation is used to describe retinal temperature increases produced by the absorption of intense light in the retina and the choroid. Temporal, radial, and axial temperature distributions are presented for both continuous and pulsed light sources operating at 700 nm. A point-spread distribution of retinal irradiance is considered in addition to a wide range of uniform and gaussian distributions. The application of computed temperatures to the prediction of retinal damage is discussed in terms of a maximum temperature-damage criterion, and dependence of these predictions upon the depth of the retinal pigment epithelium is detailed.

[1] William T. Ham,et al. An equilibrium thermal model for retinal injury from optical sources. , 1969, Applied optics.

[2] H. H. Rachford,et al. The Numerical Solution of Parabolic and Elliptic Differential Equations , 1955 .

[3] R. Gubisch,et al. Optical Performance of the Human Eye , 1967 .

[4] E. R. Berry,et al. Ocular spectral characteristics as related to hazards from lasers and other light sources. , 1968, American journal of ophthalmology.