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Message ID: 1     Entry time: Wed Jun 10 11:51:46 2020
Author: Jan Glorius 
Category: Codes 
Subject: MIRKO code 
Attached are different (Windows) versions of the MIRKO code in a zip-File.
For the attached mix-file only the 2015 Version worked properly for me.
However, for older inputs from other sources, the alternative versions might be needed.

All of these files are from Sergey Litvinov or my own modifications of Sergeys files.

See MIRKO_manual_de.html for a german command list and explanation.
See Mirko_instruction.txt for a brief how-to for changing stored beam and checking capture/ionization tracks (from Oleksii Gorda).
Attachment 1: MIRKO.zip  3.722 MB  Uploaded Wed Jun 10 13:02:25 2020
Attachment 2: esr_standard_exp_04-2019_with-cooler.mix  35 kB  Uploaded Wed Jun 10 13:02:37 2020  | Show | Hide all | Show all
Attachment 3: MIRKO_manual_de.html  197 kB  Uploaded Wed Jun 10 13:09:09 2020
Attachment 4: Mirko_instructions.txt  2 kB  Uploaded Wed Jun 10 13:11:56 2020  | Hide | Hide all | Show all
At first, import a ESR mix-file. 

Required command list. 
As an example separation of different charge states for 208Ni82+ is considered here:

(1)  SY           !calculations (control) of ion-optical parameters of the ring. Only do, if entire ring is used!
                  !The option "drübermalen.." (third button from right on the output window) has to be switched on 
                  !to plot different envelopes on one graph without clearing.      
(2)  KEMI,5,5     !emittance input, this determines beam size (mm mrad)
(3)  AKOP         !control of the beam parameters including the magnetic rigidity 
----- set stored ion species -----
(4)  KART,208,82  !input of the new beam parameters (a=208,z=82)
(5)  AKOP         !control of the beam parameters after the changes. The rigidity will change if a new beam is specified
(6)  KBET,-7.471  !Set the rigidity to the previous value by adjusting the beam energy in MeV/u: trial and error or you have to calculate the energy
(7)  SAVE         !save new settings
(8)  PREL         !initiate the change of the beam parameters leaving the ion-optical properties unchanged
(9)  SKIP         !back to saved settings again, necessary to refresh the output window
(10) LOE,PEN      !refresh the window
----- set product ion properties -----
(11) PREL         !must be executed again after the SKIP command
(12) KART,208,83  !input of new beam parameters (new charge state z=83)
(13) KART,208,84  !input of new beam parameters (new charge state z=84)
(14) KART,208,81  !input of new beam parameters (new charge state z=81)
(15) KART,208,80  !input of new beam parameters (new charge state z=80)
(16) HCOP,'testSeparation.eps',14  !save the output graph to *.eps-file
(17) SKIP
(18) LOE,PEN
(19) repeat (4-16) for other ions...
if you want to change the stored ion species again, you have to change from PREL mode to PNUL mode using the PNUL command, check current mode with MODE command

                                                                                                                                                                                                                                                      
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
             
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