Definition at line 60 of file UserDIY.cc.
◆ rhopi()
Definition at line 62 of file UserDIY.cc.
62 {
63 _pd[0]=pd1;
64 _pd[1]=pd2;
65 _pd[2]=pd3;
66 }
◆ amps()
Definition at line 104 of file UserDIY.cc.
104 {
105 double temp,s12,s13,s23;
106 s12=(_pd[0]+_pd[1]).mass2();
107 s13=(_pd[0]+_pd[2]).mass2();
108 s23=(_pd[1]+_pd[2]).mass2();
110 return temp;
111 }
double amps1(double s, int i, int j)
◆ amps1()
double rhopi::amps1 |
( |
double |
s, |
|
|
int |
i, |
|
|
int |
j |
|
) |
| |
Definition at line 87 of file UserDIY.cc.
87 {
88 double mrho=0.771,wrho=0.1492,dpro;
90 dpro=pow(
abs(
s-mrho*mrho+img*sqrt(
s)*wrho),2.);
92 prho=_pd[i]+_pd[j];
94 double theta,phi,ct1,st1,
phi1,st,ct,temp;
95 theta=angles.getHelAng(1);
96 phi =angles.getHelAng(2);
97 ct1 =labAngles.
Angles(prho,1);
99 st=
sin(theta);ct=
cos(theta);
100 temp=pow(
F00(
s),2.)*pow(
F10(
s),2.)*pow(st,2.)/dpro;
101 return temp;
102 }
double abs(const EvtComplex &c)
double sin(const BesAngle a)
double cos(const BesAngle a)
double Angles(EvtVector4R, int)
Referenced by amps().
◆ F00()
double rhopi::F00 |
( |
double |
s | ) |
|
◆ F10()
double rhopi::F10 |
( |
double |
s | ) |
|
Definition at line 81 of file UserDIY.cc.
81 {
82 double mpi=0.1395,mpsi=3.096916;
83 double tep=sqrt((mpsi*mpsi-pow(
mpi+sqrt(
s),2.))*(mpsi*mpsi-pow(
mpi-sqrt(
s),2.)));
84 return tep;
85 }
Referenced by amps1().
The documentation for this class was generated from the following file: