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#author("2023-09-28T07:52:12+09:00","default:admin","admin") &mathjax(font-size: 80%); *News [#news] -''To the participants of A3F-CNSSS20'' (2020-08-18)~ Some new input samples and external files are uploaded on [[the A3F-CNSSS20 room>A3F-CNSSS20]]. -''To the participants of A3F-CNSSS20'' (2020-08-15)~ &color(red){Please re-download [[pikoe1.f90>#latest]] to properly perform the momentum distribution calculation (when IVAR=9).}; The result of the test below is not affected at all by this change. -''To the participants of A3F-CNSSS20'' (2020-08-07)~ Please complete the following test by the summer school. Because I must concentrate on the preparation for my lecture, I will not be able to respond to any question/request for a while. Thank you for your kind understanding. (K. Ogata) ++Read this page carefully. ++Download pikoe1.f90, FLtbl_rede.dat, EDAD1p12C_e.dat, EDAD1p11B_e.dat, and 12Cp2p11Bgs_set1_cs.cnt. ++Compile pikoe1.f90 and run the executable file with redirecting 12Cp2p11Bgs_set1_cs.cnt. ++See tbl_12Cp2p11Bgs_set1_cs.dat and plot "tdx" as a function of "th2l" given in the file. ++You will get a result like &ref(files/12Cp2p11Bgs_set1_cs.pdf,this);. (Experimental data are also plotted in the figure.) -Site opened (2020-08-07) -[[Past News>past]] *What's this page? [#intro] A computer code "pikoe" for proton-induced knock-out reaction calculations for exclusive processes can be downloaded from this page. Some instruction, updates, and FAQ are also available here. *About the program [#program] ***Language [#lang] Fortran 90 (complete program). ***Notice [#notice] Copyright belongs to the following persons. &color(red){Please do not redistribute the files or make them public};. -Kazuyuki Ogata (RCNP, Osaka U / Osaka City U) -Kazuki Yoshida (ASRC, JAEA / RCNP, Osaka U) -Yoshiki Chazono (RCNP, Osaka U) &color(red){If you present or publish results obtained by pikoe, please cite it as follows.};~ K. Ogata, K. Yoshida, and Y. Chazono, computer program pikoe (unpublished). We are planning to publish pikoe in Computer Physics Communications. Once it is done, we announce it on this page. ***Usage [#usage] +Prepare an input file (a manual and samples are given below) and, if necessary, external file(s). +Compile pikoe1.f90~ In some cases, you may need to put an option (see below). +Run pikoe1 with redirecting the input file. For example, pikoe1 < 12Cp2p11Bgs_set1.cnt In some environment, you must type ./pikoe1 < ./12Cp2p11Bgs_set1.cnt ***Error! [#error] If pikoe does not run successfully, try the following. -Read carefully the output. In many cases, the reason for the error is given. Correct your input file and/or external file(s) accordingly. --If it is written that the size of an array is not enough, you need to change the parameter(s) given in "module dims" in the source file. -Put a compiler option that specifies SAVE statement for every local variable and array. --gfortran: -fno-automatic --ifort: -save (Unix/Linux/OS X) or /Qsave (Windows) -Make stacksize larger. --On the RCNP high-performance computing system, you can put ulimit -s unlimited in your batch file. --If you use Intel compiler on windows, you can add -link /stack:*** when you compile pikoe1.f90 (*** is the stacksize in bytes). *Download [#dl] ***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.}; //***Old versions [#old] ***Manual for input [#man] -&ref(files/manual_pikoe1.txt, manual_pikoe1.txt); (2020/08/07)~ input manual ***Input samples [#input] -&ref(files/12Cp2p11Bgs_set1.cnt, 12Cp2p11Bgs_set1.cnt); (2020/08/07)~ &mathjax{^{12}{\rm C}(p,2p){}^{11}{\rm B}_{\rm g.s.}}; at 392 MeV kinematics1, Dirac phenomenology for proton optical potential, Franey-Love NN effective interaction. Needs nnampFL.dat, EDAD1p12C_e.dat, and EDAD1p11B_e.dat. -&ref(files/12Cp2p11Bgs_set1_cs.cnt, 12Cp2p11Bgs_set1_cs.cnt); (2020/08/07)~ Same as above but with cross-section factorization. Needs FLtbl_rede.dat instead of nnampFL.dat. ***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) *Contact [#contact] If you have questions, bug report, and request, please contact us with ml-pikoe-contact@rcnp.osaka-u.ac.jp ~ ''Important:''~ -Because we will not have enough time to reply, you are strongly encouraged to read all the documents on this page and [[FAQ>FAQ]]. If an answer is given in the documents/[[FAQ>FAQ]], we may not even reply to your e-mail, sorry. -We basically welcome your request. However, it will totally be up to our availability. Please be patient. ***FAQ [#me901dee] FAQ are listed [[here>FAQ]]. *References [#ref] -DWIA framework~ T. Wakasa, K. Ogata, and T. Noro, Prog. Part. Nucl. Phys. ''96'', 32 (2017); see Sec. 3.1 in particular. -Franey-Love nucleon-nucleon effective interaction~ M. A. Franey and W. G. Love, Phys. Rev. C ''31'', 488 (1985). -Dirac phenomenology~ S. Hama, B. C. Clark, E. D. Cooper, H. S. Sherif, and R. L. Mercer, Phys. Rev. C ''41'', 2737 (1990).~ E. D. Cooper, S. Hama, B. C. Clark, and R. L. Mercer, Phys. Rev. C ''47'', 297 (1993). -Nonlocality correction for nucleon~ F. Perey and B. Buck, Nucl. Phys. ''32'', 353 (1962). -M淡ller factor~ C. M淡ller, Kgl. Danske Videnskab. Selsbak,Mat-fys. Medd. ''23'', 1 (1945).~ A. K. Kerman, H. Mc&mathjax{\rm };Manus, and R. M. Thaler, Ann. Phys. (NY) ''8'', 551 (1959).