Difference between revisions of "Example of a MCEEP run"
Line 15: | Line 15: | ||
Cutoff energy in MeV (RET for 1 MeV default) > | Cutoff energy in MeV (RET for 1 MeV default) > | ||
− | S(p,E) X Sigma CC1 (unpolarized) --------------- 100 | + | S(p,E) X Sigma CC1 (unpolarized) ------------------- 100 |
− | S(p,E) X Sigma CC2 (unpolarized) --------------- 101 | + | S(p,E) X Sigma CC2 (unpolarized) ------------------- 101 |
− | S(p,E) X Sigma CC1 (polarized - Van Orden) ----- 200 | + | S(p,E) X Sigma CC1 (polarized - Van Orden) ------- 200 |
− | Gross/Dmitrasinovic Deuterium IA --------------- 300 | + | Gross/Dmitrasinovic Deuterium IA ------------------ 300 |
− | S. Jeschonnek Deuterium PWBA ------------------- 350 | + | S. Jeschonnek Deuterium PWBA -------------------- 350 |
− | p(e,e’p)pi0 ------------------------------------ 500 | + | p(e,e’p)pi0 --------------------------------------------- 500 |
− | p(e,e’pi+)n ------------------------------------ 600 | + | p(e,e’pi+)n --------------------------------------------- 600 |
− | p(e,e’K+)Y ------------------------------------- 700 | + | p(e,e’K+)Y --------------------------------------------- 700 |
− | d(e,e’p)n Arenhoevel unpolarized responses ----- 804 | + | d(e,e’p)n Arenhoevel unpolarized responses ------- 804 |
− | d(e,e’p)n Laget unpolarized responses ---------- 814 | + | d(e,e’p)n Laget unpolarized responses ------------- 814 |
Enter Option> | Enter Option> | ||
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Saha parametric fit to data ------------ 11 | Saha parametric fit to data ------------ 11 | ||
− | from EPC code | + | from EPC code ------------------------- 12 |
Bernheim data -------------------------- 13 | Bernheim data -------------------------- 13 | ||
− | Van Orden parameterization | + | Van Orden parameterization ----------- 14 |
− | Paris ---------------------------------- 15 | + | Paris ------------------------------------- 15 |
− | Bonn ----------------------------------- 16 | + | Bonn ------------------------------------- 16 |
Argonne V18 ---------------------------- 17 | Argonne V18 ---------------------------- 17 | ||
Line 63: | Line 63: | ||
CD Bonn -------------------------------- 18 | CD Bonn -------------------------------- 18 | ||
− | Gross ---------------------------------- 19 | + | Gross ------------------------------------ 19 |
Enter Option or <RET> for more options | Enter Option or <RET> for more options |
Revision as of 21:03, 25 February 2015
mceep
Enter input file prefix (.inp) >
v3 9
Elast (E), Bnd State (B), Contin (C), Acceptance (A)?
b
Radiate? (0=No, 1=Yes, 2=Yes with multiphoton corr.)
2
Cutoff energy in MeV (RET for 1 MeV default) >
S(p,E) X Sigma CC1 (unpolarized) ------------------- 100
S(p,E) X Sigma CC2 (unpolarized) ------------------- 101
S(p,E) X Sigma CC1 (polarized - Van Orden) ------- 200
Gross/Dmitrasinovic Deuterium IA ------------------ 300
S. Jeschonnek Deuterium PWBA -------------------- 350
p(e,e’p)pi0 --------------------------------------------- 500
p(e,e’pi+)n --------------------------------------------- 600
p(e,e’K+)Y --------------------------------------------- 700
d(e,e’p)n Arenhoevel unpolarized responses ------- 804
d(e,e’p)n Laget unpolarized responses ------------- 814
Enter Option>
200
(e,e'p) or (e,e'n)? (P/N)>
p
Deuteron:
Krautschneider ------------------------- 10
Saha parametric fit to data ------------ 11
from EPC code ------------------------- 12
Bernheim data -------------------------- 13
Van Orden parameterization ----------- 14
Paris ------------------------------------- 15
Bonn ------------------------------------- 16
Argonne V18 ---------------------------- 17
CD Bonn -------------------------------- 18
Gross ------------------------------------ 19
Enter Option or <RET> for more options
10
Compute singles and accidentals? (Y/N)>
n
Doing Radiation Tail Calculation
Event number: 1000
Event number: 2000
.
Event number: 50000
Doing Peak Calculation
Event number: 1000
Event number: 2000
.
Event number: 50000
FORTRAN STOP