Computer Programs
NESC0758 COREL DAMG2 RASE4.
last modified: 01-OCT-1979 | catalog | categories | new | search |

NESC0758 COREL DAMG2 RASE4.

COREL DAMG2 RASE4, Ion Implantation in Solids, Range, Straggling Using Thomas-Fermi Cross-Sections

top ]
1. NAME OR DESIGNATION OF PROGRAM:  COREL DAMG2 RASE4
top ]
2. COMPUTERS

To submit a request, click below on the link of the version you wish to order. Rules for end-users are available here.

Program name Package id Status Status date
COREL NESC0758/01 Tested 01-OCT-1979
DAMG2 NESC0758/02 Tested 01-OCT-1979
RASE4 NESC0758/03 Tested 01-OCT-1979

Machines used:

Package ID Orig. computer Test computer
NESC0758/01 IBM 370 series IBM 370 series
NESC0758/02 IBM 370 series IBM 370 series
NESC0758/03 IBM 370 series IBM 370 series
top ]
3. DESCRIPTION OF PROBLEM OR FUNCTION

COREL calculates the final average projected range, standard deviation in projected range, standard deviation in locations transverse to projected range, and average range along path for energetic atomic projectiles incident on amorphous targets or crystalline targets oriented such that the projectiles are not incident along low index crystallographic axes or planes.
RASE4 calculates the instantaneous average projected range, standard deviation in projected range, standard deviation in locations transverse to projected range, and average range along path for energetic atomic projectiles incident on amorphous targets  or crystalline targets oriented such that the projectiles are not incident along low index crystallographic axes or planes. RASE4 also calculates the instantaneous rate at which the projectile is depositing energy into atomic processes (damage) and into electronic processes (electronic excitation), the average range of target atom  recoils projected onto the direction of motion of the projectiles, and the standard deviation in the recoil projected range.
DAMG2 calculates the distribution in depth of the energy deposited into atomic processes (damage), electronic processes (electronic excitation), or other energy-dependent quality produced  by energetic atomic projectiles incident on amorphous targets or crystalline targets oriented such that the projectiles are not incident along low index crystallographic axes or planes.
top ]
4. METHOD OF SOLUTION

COREL: The truncated differential equation which governs the several variables being sought is solved through second-order by trapezoidal integration. The energy-dependent coefficients in the equation are obtained by rectangular integration over the Thomas-Fermi elastic scattering cross section.
RASE4: The truncated differential equation which governs the range and straggling variables is solved through second-order by trapezoidal integration. The energy-dependent coefficients in the equation, the energy deposition rates, and the recoil range and straggling variables are obtained by rectangular integration over the Thomas-Fermi elastic scattering cross section.
DAMG2: The integral which governs the depth distribution of interest is evaluated by rectangular integration. Energy redistribution  by the  recoiling target  atoms is  included in a Gaussian approximation.
top ]
5. RESTRICTIONS ON THE COMPLEXITY OF THE PROBLEM

COREL and RASE4: Compound targets with up to four different atomic constituents may be considered. The maximum incident energy which may be used is 800  times the Lindhard characteristic energy, a quantity which depends on the mass and atomic number of the incident projectile and the target atoms. aximum incident energy can be increased by increasing  storage area available for the program, and increasing the dimensions of the energy-dependent arrays.
top ]
6. TYPICAL RUNNING TIME

For a given incident energy the programs run  longer for lighter projectiles. Average running time for COREL is 30 seconds for 200 equally-spaced incident energies. Average running time for RASE4 for 10 equally-spaced incident energies and 10 equally-spaced instantaneous energies is 180 seconds. Average running time for DAMG2 for 10 equally-spaced incident energies is 120 seconds. The NESC executed the sample problems for COREL, RASE4, and DAMG2 in 2, 6, and 4 CPU seconds respectively.
top ]
7. UNUSUAL FEATURES: UNUSUAL FEATURES OF THE PROGRAM
top ]
8. RELATED OR AUXILIARY PROGRAMS: RELATED AND AUXILIARY PROGRAMS
top ]
9. STATUS
Package ID Status date Status
NESC0758/01 01-OCT-1979 Tested at NEADB
NESC0758/02 01-OCT-1979 Tested at NEADB
NESC0758/03 01-OCT-1979 Tested at NEADB
top ]
10. REFERENCES
NESC0758/01, included references:
- D.K. Brice:
  Ion Implantation Range and Energy Deposition Codes COREL, RASE4,
  and DAMG2
  SAND75-0622 (July 1977).
NESC0758/02, included references:
- D.K. Brice:
  Ion Implantation Range and Energy Deposition Codes COREL, RASE4,
  and DAMG2
  SAND75-0622 (July 1977).
NESC0758/03, included references:
- D.K. Brice:
  Ion Implantation Range and Energy Deposition Codes COREL, RASE4,
  and DAMG2
  SAND75-0622 (July 1977).
top ]
11. MACHINE REQUIREMENTS

134K words of memory are needed for COREL, 130K words are needed for RASE4, and 143K words of memory are needed for DAMG2. These regions may be reduced by decreasing the dimensions of certain arrays.
top ]
12. PROGRAMMING LANGUAGE(S) USED
Package ID Computer language
NESC0758/01 FORTRAN-IV
NESC0758/02 FORTRAN-IV
NESC0758/03 FORTRAN-IV
top ]
13. OPERATING SYSTEM UNDER WHICH PROGRAM IS EXECUTED:   SCOPE.
top ]
14. OTHER PROGRAMMING OR OPERATING INFORMATION OR RESTRICTIONS

Output from COREL is used as input to RASE4 (TAPE10), and output from RASE4 is used for input to DAMG2 (TAPE20). TAPE10 and TAPE20 must be rewound before running RASE4 and DAMG2, respectively.
top ]
15. NAME AND ESTABLISHMENT OF AUTHOR

                 D. K. Brice
                 Division 5112
                 Sandia Laboratories
                 Albuquerque, New Mexico  87115
top ]
16. MATERIAL AVAILABLE
NESC0758/01
File name File description Records
NESC0758_01.001 SOURCE (F4,EBCDIC) 675
NESC0758_01.002 SAMPLE INPUT DATA 10
NESC0758_01.003 SAMPLE OUTPUT 218
NESC0758/02
File name File description Records
NESC0758_02.001 SOURCE (F4,EBCDIC) 686
NESC0758_02.002 SAMPLE INPUT DATA 8
NESC0758_02.003 SAMPLE OUTPUT 497
NESC0758_02.004 COREL /RASE4 /DAMG2 - JCL 34
NESC0758/03
File name File description Records
NESC0758_03.001 SOURCE (F4,EBCDIC) 1056
NESC0758_03.002 SAMPLE INPUT DATA 16
NESC0758_03.003 SAMPLE OUTPUT 581
top ]
17. CATEGORIES
  • Q. Materials

Keywords: ion implantation, radiation effects, scattering, slowing-down.