A FIRST-ORDER MODEL FOR COMPUTATION OF LASER-INDUCED BREAKDOWN THRESHOLDS IN OCULAR AND AQUEOUS-MEDIA .1. THEORY

An analytic, first-order model has been developed to calculate irradiance thresholds for laser-induced breakdown (LIE) in condensed media, including ocular and aqueous media, The model is derived from the simple rate equation formalism of Shen for cascade breakdown in solids and from the theory of multiphoton ionization in condensed media developed by Keldysh. Analytic expressions have been obtained for the irradiance thresholds corresponding to multiphoton breakdown, to cascade breakdown, and to initiation of cascade breakdown by multiphoton ionization of seed electrons (multiphoton initiation threshold). The model has been incorporated into a computer code and code results compared to experimentally measured irradiance thresholds for breakdown of ocular and aqueous media by nanosecond, picosecond, and femtosecond laser pulses in the visible and near-infrared, The code and comparison of code results to experiment have been documented in a second paper (Part II).