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%%%%%%%%%%%%%  PHIPHI/PP MLU INPUTS/OUTPUTS  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%%%%%%%%%%%%%%%%%%%% INPUTS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

1) SF Bundle#1 

2) SF Bundle#2

3) SF Bundle#8

4) H2_logic 

5) H2=3,4 

6) Empty (before run745 KIN2B was here) 

7) SFup>=2  

8) SF=3,H2=3 

9) SF=3,4

10) SF=1 

11) SF=2 
    _  
12) PP control bundles (B2*B17 or B3*B19)

13) CCAL1-3

14) CCAL18-20

15) KIN2B (empty before run745 , see input#6)
    _
16) PP signal bundle (B8 or B9 etc...) 




%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%  OUTPUTS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% 



1) Phi Phi trigger : 
  ________   ________   ________                     _________
 (Bundle#1)*(Bundle#2)*(H2_logic)*(H2=3,4)*(SF=3,4)*(SF=3,H2=3)*(KIN2B)


   _
2) PP 90deg trigger 
   _                 ________ 
  (PP 90deg bundle)*(H2_logic)*(SF=1)


   _
3) PP control trigger  
   _                   ________
  (PP control bundle)*(H2_logic)*(SF=2)




%%%%%%%%%%%%%%%%%%%%%%%%%% Logics description %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%


------------------ Bundles -------------------
                                                  
 A "Bundle" is the OR of a certain number (see the note below) 
 of adjacent fibers of both cylinders   

For example the Bundle#1 is the OR of fibers : (1-30)INNER.or.(1-30)OUTER 


NOTE : The number of fibers that form a bundles is not the same for all the 
       bundles but changes with theta. 


--------------------- H2_logics ----------------------------------------

 H2 logic is the coincidence between an H2 elements and two azimuthal regions 
 nine H2 elements wide and centered at 90 deg with respect the above H2 
 elements.

 Example : 
 
 H2-1 .AND.[ (H2-4.or.H2-5.or. .... .or.H2-13) .or. (H2-21.or. ... .or.H2-29) ]
 
 H2-2 .AND.[ (H2-5.or.H2-6.or. .... .or.H2-14) .or. (H2-22.or. ... .or.H2-30) ]
 
 etc...

 If at least one of the above conditions is satisfied the H2_logic  is ON 
 and the event is rejected (we use this logic as a VETO)
 

-------------------- KIN2B -----------------------------------------------

 KIN2B is a "Matrix of coincidences among bundles" based upon the 
   
 PhiPhi---> 4K  kinematic (this logic has been studied with Montecarlo 
                           simulation)     



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For questions or comments please contact : 

Wander Baldini :  - wander@fnal.gov 
 
                  - baldini@axpfe1.fe.infn.it