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Diff of A3F-CNSSS20

Top/A3F-CNSSS20
&mathjax(font-size: 80%); 


*files discussed in the lecture [#file]

***Latest version [#latest]

-&ref(files/pikoe1.f90, pikoe1.f90); (2020/08/15)~
source file of pikoe version 1~
&color(red){NOTE: The 200807 version was found not to calculate the &mathjax{d\sigma/dP_x}; and &mathjax{d\sigma /dP_{\rm tot}};, which has been corrected in the 200815 version. This bug-fix does not affect any numerical result you obtained with the 200805 version. For this reason, we have decided not to give a different version # to the revised source code. Thank you.};

***Manual for input [#man]

-&ref(files/manual_pikoe1.txt, manual_pikoe1.txt); (2020/08/07)~
input manual

***Input samples (2020/08/18) [#input]

-&ref(files/sample1.cnt, sample1.cnt);
-&ref(files/sample2.cnt, sample2.cnt);
-&ref(files/sample3.cnt, sample3.cnt);
-&ref(files/sample4.cnt, sample4.cnt);
-&ref(files/sample5.cnt, sample5.cnt);


***External files [#ext]

-&ref(files/FLtbl_rede.dat, FLtbl_rede.dat); (2020/08/07)~
NN cross section with the Franey-Love effective interaction
-&ref(files/nnampFL.dat, nnampFL.dat); [''48MB''] / &ref(files/nnampFL.zip, nnampFL.zip); [zipped]: (2020/08/07)~
NN amplitude with the Franey-Love effective interaction
-&ref(files/EDAD1p12C_e.dat, EDAD1p12C_e.dat); (2020/08/07)~
proton optical potential on &mathjax{^{12}{\rm C}}; at 392 MeV with the Dirac phenomenology (EDAD1, reduced-energy)
-&ref(files/EDAD1p11B_e.dat, EDAD1p11B_e.dat); (2020/08/07)~
proton optical potential on &mathjax{^{11}{\rm B}}; from 5 MeV to 390 MeV with the Dirac phenomenology (EDAD1, reduced energy)

-&ref(files/EDAD1p12C@100_e.dat, EDAD1p12C@100_e.dat); (2020/08/18)~
proton optical potential on &mathjax{^{12}{\rm C}}; at 100 MeV with the Dirac phenomenology (EDAD1, reduced-energy)
-&ref(files/EDAD1p40Ca_e.dat, EDAD1p40Ca_e.dat); (2020/08/18)~
proton optical potential on &mathjax{^{40}{\rm Ca}}; at 392 MeV with the Dirac phenomenology (EDAD1, reduced-energy)
-&ref(files/EDAD1p39K_e.dat, EDAD1p39K_e.dat); (2020/08/18)~
proton optical potential on &mathjax{^{39}{\rm K}}; from 5 MeV to 390 MeV with the Dirac phenomenology (EDAD1, reduced energy)


***Experimental data (2020/08/18) [#exp]

These data will appear in T. Noro+, PTEP 2020 (in press), and provided by Prof. Noro (Kyushu U). Please use these data with a correct understanding of their meaning. Later, I will add further information.

-&ref(files/exp12gs_1_PTEP2020.dat, exp12gs_1_PTEP2020.dat);
-&ref(files/exp40Caex_1_PTEP2020.dat, exp40Caex_1_PTEP2020.dat);
-&ref(files/exp40Cags_1_PTEP2020.dat, exp40Cags_1_PTEP2020.dat);