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This information is used by RASE4 in calculating the redistribution of deposited energy by the target atom recoils. Its primary use in the present package is to provide the average range and straggling variables for recoiling target atoms which are created by the incident ion. The code COREL is a short, economical version of RASE4 which calculates the range and straggling variables for E' = 0. RASE4 can perform these calculations for targets having up to four different component atomic species. They are sufficient to determine the three dimensional spatial distribution of the ions in the target in the Gaussian approximation when the depth distribution is independent of the lateral distribution. These parameters are calculated as a function of incident ion energy, E, and the instantaneous energy of the ion, E'. RASE4 calculates the projected range, R/sub p/, the root mean square spread in the projected range, ΔR/sub p/, and the root mean square spread of the distribution perpendicular to the projected range ΔR/sub perpendicular to/. The FORTRAN codes COREL, RASE4 and DAMG2 can be used to calculate quantities associated with ion implantation range and energy deposition distributions within an amorphous target, or for ions incident far from low index directions and planes in crystalline targets. International Nuclear Information System (INIS) Ion implantation range and energy deposition codes COREL, RASE4, and DAMG2

have average porosity of 0.22, water saturation 0.43 and Hydrocarbon saturation of 0.57. GEOPHYSICAL AND WELL CORELLATION ANALYSIS OF OGO FIELD: A CASE STUDY IN. Geophysical and well corellation analysis of ogo field: a case study.