/[PAMELA software]/DarthVader/CalorimeterLevel2/inc/CaloLevel2.h
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revision 1.1.1.1 by mocchiut, Fri May 19 13:15:49 2006 UTC revision 1.2 by mocchiut, Tue May 30 14:57:57 2006 UTC
# Line 22  private: Line 22  private:
22    
23  public:  public:
24      //      //
25      Int_t trkseqno; ///< tracker entry coming from tracker, -1 if selftrigger event, 100 if image track is used, -100 if the track is not consistent with calorimeter one      Int_t trkseqno; ///< tracker entry coming from tracker, -1 if selftrigger event.
26      //      //
27      // track related variables      // track related variables
28      //      //
29      Int_t ncore;     ///< SUM(j=1,2)SUM(i=1,PLmax) Nhit(i,j)*i , where Nhit(i,j) is the number of hits in a cylinder of radius 2 Rm (Moliere radius) around the track in the i-th plane (where the top plane is number 1 and the sum runs up to plane number PLmax, closest to the calculated electromagnetic shower maximum of the j-th view)      Int_t ncore;     ///< SUM(j=1,2)SUM(i=1,PLmax) Nhit(i,j)*i , where Nhit(i,j) is the number of hits in a cylinder of radius 2 Rm (Moliere radius) around the track in the i-th plane (where the top plane is number 1 and the sum runs up to plane number PLmax, closest to the calculated electromagnetic shower maximum of the j-th view)
30      Int_t noint;      ///< SUM(j=1,2)SUM(i=1,22) TH(i,j)*i , where TH(i,j) = 1 if the i-th plane of the j-th view has a cluster along (less than 4 mm away) the track with a deposited energy typical of a proton (order of one MIP), otherwise TH(i,j) = 0      Int_t noint;      ///< SUM(j=1,2)SUM(i=1,22) TH(i,j)*i , where TH(i,j) = 1 if the i-th plane of the j-th view has a cluster along (less than 4 mm away) the track with a deposited energy typical of a proton (order of one MIP), otherwise TH(i,j) = 0
31      Int_t ncyl;      ///< the number of strip hit in a cylinder of radius 8 strips around the shower axis      Int_t ncyl;      ///< the number of strip hit in a cylinder of radius 8 strips around the shower axis
32      Int_t nlast;     ///< the same as "ncyl" but only for the last four planes.      Int_t nlast;     ///< the same as "ncyl" but only for the last four planes and radius 4 strips.
33      Int_t npre;      ///< the same as "ncyl" but only for the first three planes      Int_t npre;      ///< the same as "ncyl" but only for the first three planes
34      Int_t npresh;    ///< the same as "ncyl" but with radius 2 strips and only in the first four planes      Int_t npresh;    ///< the same as "ncyl" but with radius 2 strips and only in the first four planes
35      Int_t ntr;       ///< the same as "ncyl" but with radius 4 strips      Int_t ntr;       ///< the same as "ncyl" but with radius 4 strips
# Line 39  public: Line 39  public:
39      Float_t tbar[22][2]; ///< position in cm as measured by the tracker      Float_t tbar[22][2]; ///< position in cm as measured by the tracker
40      Float_t qcore;   ///< SUM(j=1,2)SUM(i=1,PLmax) Qhit(i,j)*i , where Qhit(i,j) is the energy released (MIP) in a cylinder of radius 2 Rm (Moliere radius) around the track in the i-th plane (where the top plane is number 1 and the sum runs up to plane number PLmax, closest to the calculated electromagnetic shower maximum of the j-th view).      Float_t qcore;   ///< SUM(j=1,2)SUM(i=1,PLmax) Qhit(i,j)*i , where Qhit(i,j) is the energy released (MIP) in a cylinder of radius 2 Rm (Moliere radius) around the track in the i-th plane (where the top plane is number 1 and the sum runs up to plane number PLmax, closest to the calculated electromagnetic shower maximum of the j-th view).
41      Float_t qcyl;    ///< the measured energy deposited in a cylinder of radius 8 strips around the shower axis      Float_t qcyl;    ///< the measured energy deposited in a cylinder of radius 8 strips around the shower axis
42      Float_t qlast;   ///< the same as "qcyl" but only for the last four planes.      Float_t qlast;   ///< the same as "qcyl" but only for the last four planes and radius 4 strips.
43      Float_t qpre;    ///< the same as "qcyl" but only for the first three planes      Float_t qpre;    ///< the same as "qcyl" but only for the first three planes
44      Float_t qpresh;  ///< the same as "qcyl" but with radius 2 strips and only in the first four planes      Float_t qpresh;  ///< the same as "qcyl" but with radius 2 strips and only in the first four planes
45      Float_t qtr;     ///< the same as "qcyl" but with radius 4 strips      Float_t qtr;     ///< the same as "qcyl" but with radius 4 strips
# Line 50  public: Line 50  public:
50      Float_t dytrack; ///< measured energy outside the clusters along the track in the y-view      Float_t dytrack; ///< measured energy outside the clusters along the track in the y-view
51      Float_t qmean;   ///< the energy truncated mean that is the average energy deposit for the five planes with the smaller energy deposit of the whole calorimeter      Float_t qmean;   ///< the energy truncated mean that is the average energy deposit for the five planes with the smaller energy deposit of the whole calorimeter
52      Float_t qlow;    ///< the same as "qstrip" but below the calculated electromagnetic shower maximum      Float_t qlow;    ///< the same as "qstrip" but below the calculated electromagnetic shower maximum
53      Float_t dX0l;    ///< traversed X0 lenght      Float_t dX0l;    ///< tranversed X0 lenght
54      //      //
55      CaloTrkVar(); ///< Constructor.      CaloTrkVar(); ///< Constructor.
56      /**      /**
# Line 141  class CaloLevel2 : public TObject { Line 141  class CaloLevel2 : public TObject {
141      Float_t dX0l(Int_t entry)                          {return (((CaloTrkVar *)CaloTrk->At(entry))->dX0l);}; ///< extract dX0l      Float_t dX0l(Int_t entry)                          {return (((CaloTrkVar *)CaloTrk->At(entry))->dX0l);}; ///< extract dX0l
142      //      //
143      // Number of strip with energy > emip and their value coded with view plane and strip number:      // Number of strip with energy > emip and their value coded with view plane and strip number:
144      // view x(y) plane PP strip SS with energy mmmm.iip = +(-) ( PP*10^6 + SS*10^4 + mmmm.iip )      // view x[y] plane PP strip SS with energy mmmm.iip = +[-] ( PP*10^6 + SS*10^4 + mmmm.iip )
145      //      //
146      TArrayF estrip; ///< MIP values for each strip with energy > emin      TArrayF estrip; ///< MIP values for each strip with energy > emin coded with view plane and strip number; view x[y] plane PP strip SS with energy mmmm.iip = +[-] ( PP*10^6 + SS*10^4 + mmmm.iip )
147      //      //
148      // METHODS      // METHODS
149      //      //

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