I study the pion+, pion-, neutron, anti-neutron with 60 GeV energy transverse profile in FHC. The particles are shot from (0, 0, 0) to the center of FHC. And I chose to shoot particles to (124, 5, 850) and (124, -5, 850) on the surface of FHC. For position(124, 5, 850) the momentum of particle is Px= 8.66112 GeV/c,  Py = 0.349239GeV/c,  Pz = 59.3706GeV/c. For position (124, -5, 850) the momentum of particle is Px = 8.66112 GeV/c,  Py = -0.349239 GeV/c, Pz = 59.3706 GeV/c.

    I digitized the energy for one count is 50 MeV.

    Fig1, the geometry of FMS and FHC.

    1, pion+

    (1) The positions on the surface of FHC is (124, 5, 850).

    Fig2, the energy deposit in FHC of one event. The following shows 4 events.

 

    Fig3, the energy weighted X, Y positions in FHC.

    

    Fig4, the energy deposit in FMS.

 

    Fig5, the energy deposit in FHC.

 

    Fig6, the energy deposit in FMS+FHC.

   

    Fig7, the energy deposit in FMS Vs FHC.

 

    (2) The positions on the surface of FHC is (124, -5, 850).

    Fig8, the energy deposit in FHC of one event. The following shows 4 events.

 

    Fig9, the energy weighted X, Y positions in FHC.

    

    Fig10, the energy deposit in FMS.

 

    Fig11, the energy deposit in FHC.

 

    Fig12, the energy deposit in FMS+FHC.

   

    Fig13, the energy deposit in FMS Vs FHC.

 

 

    2, pion-

    (1) The positions on the surface of FHC is (124, 5, 850).

    Fig14, the energy deposit in FHC of one event. The following shows 4 events.

 

    Fig15, the energy weighted X, Y positions in FHC.

    

    Fig16, the energy deposit in FMS.

 

    Fig17, the energy deposit in FHC.

 

    Fig18, the energy deposit in FMS+FHC.

   

    Fig19, the energy deposit in FMS Vs FHC.

 

    (2) The positions on the surface of FHC is (124, -5, 850).

    Fig20, the energy deposit in FHC of one event. The following shows 4 events.

 

    Fig21, the energy weighted X, Y positions in FHC.

    

    Fig22, the energy deposit in FMS.

 

    Fig23, the energy deposit in FHC.

 

    Fig24, the energy deposit in FMS+FHC.

   

    Fig25, the energy deposit in FMS Vs FHC.

    3,  neutron

    (1) The positions on the surface of FHC is (124, 5, 850).

    Fig26, the energy deposit in FHC of one event. The following shows 4 events.

 

    Fig27, the energy weighted X, Y positions in FHC.

    

    Fig28, the energy deposit in FMS.

 

    Fig29, the energy deposit in FHC.

 

    Fig30, the energy deposit in FMS+FHC.

    Fig31, the energy deposit in FMS Vs FHC.

 

    (2) The positions on the surface of FHC is (124, -5, 850).

    Fig32, the energy deposit in FHC of one event. The following shows 4 events.

 

    Fig33, the energy weighted X, Y positions in FHC.

    

    Fig34, the energy deposit in FMS.

 

    Fig35, the energy deposit in FHC.

 

    Fig36, the energy deposit in FMS+FHC.

   

    Fig37, the energy deposit in FMS Vs FHC.

 

   4, anti-neutron

    (1) The positions on the surface of FHC is (124, 5, 850).

    Fig38, the energy deposit in FHC of one event. The following shows 4 events.

 

    Fig39, the energy weighted X, Y positions in FHC.

    

    Fig40, the energy deposit in FMS.

 

    Fig41, the energy deposit in FHC.

 

    Fig42, the energy deposit in FMS+FHC.

   

    Fig43, the energy deposit in FMS Vs FHC.

 

    (2) The positions on the surface of FHC is (124, -5, 850).

    Fig44, the energy deposit in FHC of one event. The following shows 4 events.

 

    Fig45, the energy weighted X, Y positions in FHC.

    

    Fig46, the energy deposit in FMS.

 

    Fig47, the energy deposit in FHC.

 

    Fig48, the energy deposit in FMS+FHC.

   

    Fig49, the energy deposit in FMS Vs FHC.