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chi not terrible

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This commit is contained in:
Peter DeRosa 2022-07-20 16:23:21 -04:00
parent f0214213b2
commit 2ab28226d1
7 changed files with 364 additions and 122 deletions
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.AD.cxx.swp Normal file
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7
1147.csv Normal file
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@ -0,0 +1,7 @@
angle,Y,Yerr
45,2.33,.1
86,1.84,.1
90,1.73,.1
94,2.11,.1
124,2.53,.1
135,2.41,.1
1 angle Y Yerr
2 45 2.33 .1
3 86 1.84 .1
4 90 1.73 .1
5 94 2.11 .1
6 124 2.53 .1
7 135 2.41 .1

212
AD.cxx
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@ -31,12 +31,12 @@ int main(int argc,char **argv){
targetdistance = 4.;
detthickness = 5.;
Energy = 1062.;
Sigma = 0.5;
Energy = 1147.;
Sigma = .5;
j1 = 2.;
j2 = 1.;
j1 = 5.5;
j2 = 3.5;
//--------------------------------
//TEST MODE? y : 1 || n = 0
@ -312,9 +312,9 @@ int main(int argc,char **argv){
}
// cout<<"A0 = "<<residual[0]<<"\n";
cout<<"a2 = "<<residual[1]/residual[0]<<"\n";
cout<<"a4 = "<<residual[2]/residual[0]<<"\n";
cout<<"A0 = "<<residual[0]<<"\n";
cout<<"A2 = "<<residual[1]<<"\n";
cout<<"A4 = "<<residual[2]<<"\n";
@ -485,7 +485,7 @@ int main(int argc,char **argv){
if(isnan(CG2(A))){ // CG2(A) is NaN
cout << "Warning, a CG coefficient returned NaN, set to 0.\n";
// cout << "Warning, a CG coefficient returned NaN, set to 0.\n";
cgg = 0.0;
}else{ //CG2(A) is not NaN.
@ -590,8 +590,30 @@ int main(int argc,char **argv){
double rk02 = rk40datad[nn];
double rk12 = rk41datad[nn];
double rk22 = rk42datad[nn];
//work in progress for possible generation or racah
/*
double CC1[6] = {j1,j1,2,abs(j1-j2),abs(j1-j2),j2};
double CC2[6] = {j1,j1,2,abs(j1-j2),abs(j1-j2)+1,j2};
double CC3[6] = {j1,j1,2,abs(j1-j2)+1,abs(j1-j2)+1,j2};
double rkk1 = SixJ2(CC1);
double rkk2 = SixJ2(CC2);
double rkk3 = SixJ2(CC3);
printf("rk1 = %lf\n",rkk1);
printf("rk2 = %lf\n",rkk2);
printf("rk3 = %lf\n",rkk3);
double J1 = C[0]; // j1
double J2 = C[1]; // j1
double J3 = C[2]; // K
double J4 = C[3]; // Lp = L + 1
double J5 = C[4]; // L = |j1 - j2|
double J6 = C[5]; // j2
*/
// printf("Bk1 = %lf\n",Bk11);
// printf("Bk2 = %lf\n",Bk12);
@ -610,7 +632,7 @@ int main(int argc,char **argv){
double delta_max = 3.14159/2.;
double THETA_min = 0.;
double THETA_max = 3.14159;
double step = 0.0001;
double step = 0.01;
double Tangle = 0;
double delta = 0.;
@ -623,19 +645,20 @@ int main(int argc,char **argv){
double rd0T = 0.;
double rd2T = 0.;
double rd4T = 0.;
double X22,X24 = 0.;
double X2_total = 0.;
int points = (delta_max - delta_min) / step ;
double X2_total;
double YT_tot[points];
// vector<double> YTT;
double a2E = A2E/A0E;
double a4E = A4E/A0E;
int points = (delta_max - delta_min) / step ;
int t_points = (THETA_max - THETA_min) / step;
//int points = (delta_max - delta_min) / step ;
vector<double> chisqr;
vector<double> tdelta;
vector<double> YT_point;
vector<double> YE_point;
double YT0,YT2,YT4,YT,YE = 0.;
double Y_err = 10.;
@ -646,8 +669,50 @@ int main(int argc,char **argv){
delta = tan(atan_delta);
//now sum over all theta;
for(int j = 0; j < dangler.size(); j++){
Tangle = dangler[j];
for(int j = 0; j < points; j++){
Tangle = j*step;
//calculate Y_intensity_theory and and experiment and sum over theta
rd0T = (1 + 2*delta + pow(delta,2))/(1+pow(delta,2));
rd2T = (rk01 + 2*delta*rk11 + pow(delta,2)*rk21)/(1+pow(delta,2));
rd4T = (rk02 + 2*delta*rk12 + pow(delta,2)*rk22)/(1+pow(delta,2));
YT0 = rd0T; // k = 0;
YT2 = QD2*Bk11*rd2T*((1.5*pow(cos(Tangle),2)-.5));
YT4 = QD4*Bk12*rd4T*(35./8.* pow(cos(Tangle),4) - 30./8.*pow(cos(Tangle),2) + 3./8.);
YT = YT0 + YT2 + YT4;
// YT_tot[i] += YT;
YE = 1 + a2E*(1.5*pow(cos(Tangle),2)-.5) + a4E*(35./8.* pow(cos(Tangle),4) - 30./8.*pow(cos(Tangle),2) + 3./8.);
X2_total += pow((YT- YE),2)/((dangler.size()-1)*(pow(Y_err,2)));
// X2_total[i] = X2_total[i] + pow((YE),2)/((dangler.size()-1)*(pow(Y_err,2)));
}
// if(i%27 == 1){
// cout << "X2 = " << X2_total[i] << "\n";
// }
// YTT.push_back(YT_tot[i]);
chisqr.push_back(log(X2_total));
tdelta.push_back(atan_delta);
X2_total = 0.;
// Attempt to take 1 delta value and plot YT;
}
/*
for(int k = 0; k < dangler.size(); k++){
Tangle = dangler[k];
delta = 2.;
//calculate Y_intensity_theory and and experiment and sum over theta
@ -657,27 +722,22 @@ int main(int argc,char **argv){
rd4T = (rk02 + 2*delta*rk12 + pow(delta,2)*rk22)/(1+pow(delta,2));
YT0 = 1.; // P0(cos(theta)) = 1
YT0 = 1; // k = 0;
YT2 = QD2*Bk11*rd2T*((1.5*pow(cos(Tangle),2)-.5));
YT4 = QD4*Bk12*rd4T*(35./8.* pow(cos(Tangle),4) - 30./8.*pow(cos(Tangle),2) + 3./8.);
YT = YT0 + YT2 + YT4;
// cout << "YT = " <<YT << "\n";
// YT_point.push_back(YT);
YE = 1 + a2E*(1.5*pow(cos(Tangle),2)-.5) + a4E*(35./8.* pow(cos(Tangle),4) - 30./8.*pow(cos(Tangle),2) + 3./8.);
YE_point.push_back(YE);
X2_total += pow((YT- YE),2)/(dangler.size()-1)*(pow(Y_err,2));
}
//Figure out denominator.
chisqr.push_back(log(X2_total));
tdelta.push_back(atan_delta);
X2_total = 0.;
// X2_total += pow((YT- YE),2)/((dangler.size()-1)*(pow(Y_err,2)));
}
*/
/*
A2T = QD2*Bk11*rd2T;
a2T = A2T/A0E;
@ -718,7 +778,7 @@ int main(int argc,char **argv){
double bbb = dydata[i];
dydatas.push_back(bbb/A0E);
printf("Normalized y-intensity %i = %lf\n",i+1,dydatas[i]);
// printf("Normalized y-intensity %i = %lf\n",i+1,dydatas[i]);
}
//This is to temporarily fix the issue with the AD distribution, it takes off the last point in the arrays when plotting or doesnt see them. NEED FIX
@ -739,7 +799,8 @@ int main(int argc,char **argv){
*/
//Initialize Graphics Here.
// cout<< "Dangler size = " << dangler.size() << "\n";
// cout<< "YT point size = "<< YT_point.size() << "\n";
HistoGUI gui;
@ -750,27 +811,22 @@ int main(int argc,char **argv){
int optnum = -1;
menu();
printf("Input option : ");
printf("Please enter Input Option : ");
scanf("%d", &optnum);
if(optnum < 0){
optnum = -1;
printf("Negative numbers are not allowed!\nInput option : ");
scanf("%d", &optnum);
}
if(optnum >= 0){
if(optnum == 0){
// menu
if(optnum == 0 and param == 1){
Readme();
optnum = -1;
printf("Input option : ");
printf("Please enter Input Option : ");
scanf("%d", &optnum);
}
//Chi-squared
}else if(optnum == 1 and param == 1){
//if all inputs are valid, plot distribution.
if(param == 1 && optnum == 1){
optnum = -1;
//plotting values here
//x will be arctan of mixing ratio.
//y will be log(X^2);
@ -780,24 +836,59 @@ int main(int argc,char **argv){
gui.Init();
gui.Loop();
gui.Close();
printf("Please enter Input Option : ");
scanf("%d", &optnum);
}else if(optnum == 2 and param == 1){
optnum = -1;
gui_ad.SetData(dangler,dydatas);
gui_ad.SetErrors(deydata);
gui_ad.SetFit(residual[0],residual[1],residual[2]);
gui_ad.Init();
gui_ad.Loop();
gui_ad.Close();
printf("Please enter Input Option : ");
scanf("%d", &optnum);
}else if(param != 1){
cout << "Invalid parameter input, something is wrong\n";
// printf("Input option : ");
// scanf("%d", &optnum);
// if(optnum < 0){
// printf("Input option : ");
// scanf("%d", &optnum);
// }
}
//Plot Angular distribution fit, with points and error bars.
if(param == 1 and optnum == 2){
/*
gui.SetData(Theta,AD_I);
}else{
do{
printf("Negative numbers are not allowed!\nRe-enter Option : ");
scanf("%d", &optnum);
}while(optnum < 0);}
if(optnum >= 0 and optnum != 3){
//repeat 3 cases.
// menu
if(optnum == 0 and param == 1){
Readme();
optnum = -1;
//Chi-squared
}else if(optnum == 1 and param == 1){
optnum = -1;
//plotting values here
//x will be arctan of mixing ratio.
//y will be log(X^2);
gui.SetData(dangler,YT_point);
// gui.SetData(tdelta,chisqr);
//gui.SetData(Theta,AD_I);
gui.Init();
gui.Loop();
gui.Close();
*/
}else if(optnum == 2 and param == 1){
optnum = -1;
gui_ad.SetData(dangler,dydatas);
gui_ad.SetErrors(deydata);
gui_ad.SetFit(residual[0],residual[1],residual[2]);
@ -806,18 +897,15 @@ int main(int argc,char **argv){
gui_ad.Loop();
gui_ad.Close();
}else if(param != 1){
cout << "Invalid parameter input, something is wrong\n";
}
}
//exit
printf("Input option : ");
scanf("%d", &optnum);
if(optnum < 0){
optnum = -1;
printf("Negative numbers are not allowed!\nInput option : ");
scanf("%d", &optnum);
}
if(param == 1 and optnum == 3){

145
Cleb.h
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@ -95,6 +95,151 @@ double CG2(double A[6]){
}
return A0*A1*cg;
}
double ThreeJSymbol(double J1, double m1, double J2, double m2, double J3, double m3){
// ( J1 J2 J3 ) = (-1)^(J1-J2 - m3)/ sqrt(2*J3+1) * CGcoeff(J3, -m3, J1, m1, J2, m2)
// ( m1 m2 m3 )
return pow(-1, J1 - J2 - m3)/sqrt(2*J3+1) * CG(J3, -m3, J1, m1, J2, m2);
}
double TJ2(double A[6]){
// ( J1 J2 J3 ) = (-1)^(J1-J2 - m3)/ sqrt(2*J3+1) * CGcoeff(J3, -m3, J1, m1, J2, m2)
// ( m1 m2 m3 )
double j1 = A[0];
double j2 = A[1];
double J = A[2];
double m1 = A[3];
double m2 = A[4];
double M = A[5];
double B[6];
B[0] = j1;
B[1] = j2;
B[2] = j1 + j2; //j3
B[3] = m1;
B[4] = m2;
B[5] = -(m1 + m2); //m3
return pow(-1, j1 - j2 - B[5])/sqrt(2*B[2]+1) * CG2(B);
}
double SixJSymbol(double J1, double J2, double J3, double J4, double J5, double J6){
// coupling of j1, j2, j3 to J-J1
// J1 = j1
// J2 = j2
// J3 = j12 = j1 + j2
// J4 = j3
// J5 = J = j1 + j2 + j3
// J6 = j23 = j2 + j3
//check triangle condition
if( J3 < abs(J1 - J2 ) || J1 + J2 < J3 ) return 0;
if( J6 < abs(J2 - J4 ) || J2 + J4 < J6 ) return 0;
if( J5 < abs(J1 - J6 ) || J1 + J6 < J5 ) return 0;
if( J5 < abs(J3 - J4 ) || J3 + J4 < J5 ) return 0;
double sixJ = 0;
for( float m1 = -J1; m1 <= J1 ; m1 = m1 + 1){
for( float m2 = -J2; m2 <= J2 ; m2 = m2 + 1){
for( float m3 = -J3; m3 <= J3 ; m3 = m3 + 1){
for( float m4 = -J4; m4 <= J4 ; m4 = m4 + 1){
for( float m5 = -J5; m5 <= J5 ; m5 = m5 + 1){
for( float m6 = -J6; m6 <= J6 ; m6 = m6 + 1){
double f = (J1 - m1) + (J2 - m2) + (J3 - m3) + (J4 - m4) + (J5 - m5) + (J6 - m6);
double a1 = ThreeJSymbol( J1, -m1, J2, -m2, J3, -m3); // J3 = j12
double a2 = ThreeJSymbol( J1, m1, J5, -m5, J6, m6); // J5 = j1 + (J6 = j23)
double a3 = ThreeJSymbol( J4, m4, J2, m2, J6, -m6); // J6 = j23
double a4 = ThreeJSymbol( J4, -m4, J5, m5, J3, m3); // J5 = j3 + j12
double a = a1 * a2 * a3 * a4;
//if( a != 0 ) printf("%4.1f %4.1f %4.1f %4.1f %4.1f %4.1f | %f \n", m1, m2, m3, m4, m5, m6, a);
sixJ += pow(-1, f) * a1 * a2 * a3 * a4;
}
}
}
}
}
}
return sixJ;
}
/// (double j1, double j1, double j3, double Lp, double L, double j2)
// j3 = j1 + j2, L = |j1 - j2|, Lp = L + 1
//double SixJ2(double J1, double J2, double J3, double J4, double J5, double J6){
double SixJ2(double C[6]){
double J1 = C[0]; // j1
double J2 = C[1]; // j1
double J3 = C[2]; // K
double J4 = C[3]; // Lp = L + 1
double J5 = C[4]; // L = |j1 - j2|
double J6 = C[5]; // j2
// coupling of j1, j2, j3 to J-J1
// J1 = j1
// J2 = j2
// J3 = j12 = j1 + j2
// J4 = j3
// J5 = J = j1 + j2 + j3
// J6 = j23 = j2 + j3
//check triangle condition
if( J3 < abs(J1 - J2 ) || J1 + J2 < J3 ) return 0;
if( J6 < abs(J2 - J4 ) || J2 + J4 < J6 ) return 0;
if( J5 < abs(J1 - J6 ) || J1 + J6 < J5 ) return 0;
if( J5 < abs(J3 - J4 ) || J3 + J4 < J5 ) return 0;
double sixJ = 0;
for( float m1 = -J1; m1 <= J1 ; m1 = m1 + 1){
for( float m2 = -J2; m2 <= J2 ; m2 = m2 + 1){
for( float m3 = -J3; m3 <= J3 ; m3 = m3 + 1){
for( float m4 = -J4; m4 <= J4 ; m4 = m4 + 1){
for( float m5 = -J5; m5 <= J5 ; m5 = m5 + 1){
for( float m6 = -J6; m6 <= J6 ; m6 = m6 + 1){
double C1[6] = {J2,J3,J1,-m2,-m3,-m1};
double C2[6] = {J5,J6,J1,-m5,m6,m1};
double C3[6] = {J2,J6,J4,m2,-m6,m4};
double C4[6] = {J5,J3,J4,m5,m3,-m4};
double f = (J1 - m1) + (J2 - m2) + (J3 - m3) + (J4 - m4) + (J5 - m5) + (J6 - m6);
double a1 = TJ2(C1); // J3 = j12
double a2 = TJ2(C2); // J5 = j1 + (J6 = j23)
double a3 = TJ2(C3); // J6 = j23
double a4 = TJ2(C4); // J5 = j3 + j12
double a = a1 * a2 * a3 * a4;
//if( a != 0 ) printf("%4.1f %4.1f %4.1f %4.1f %4.1f %4.1f | %f \n", m1, m2, m3, m4, m5, m6, a);
sixJ += pow(-1, f) * a1 * a2 * a3 * a4;
}
}
}
}
}
}
return sixJ;
}
/*
int main(int argc, char ** argv){

6
Functlib.h
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@ -11,8 +11,8 @@ void menu(){
std::cout <<"==========================================\n";
std::cout<< "\t\t Menu Options \t \n";
std::cout<< "0 - Reading and Instructions \n";
std::cout<< "1 - Plot Chi Sqr \n";
std::cout<< "2 - Plot Ang.Dis Fit (Maybe)\n";
std::cout<< "1 - Plot Chi Sqr vs arc-tan delta\n";
std::cout<< "2 - Plot Angular Distribution \n";
std::cout<< "3 - Exit \n";
std::cout <<"==========================================\n";
std::cout<< " \n";
@ -29,7 +29,7 @@ void Readme(){
std::cout<< " \n";
std::cout<< " Follow the prompt in order to correctly display \n";
std::cout<< " \n";
std::cout<< " To close the gui, press any button. \n";
std::cout<< " To close the gui, press most buttons. \n";
std::cout<< " To zoom in, left click then drag and let go. To unzoom\n";
std::cout<< " press the space bar. To draw, right click\n";
std::cout<< " \n";

6
GUI_AD.h
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@ -397,7 +397,8 @@ int HistoGUIad::DrawData(double x_low_win, double y_low_win, double x_hi_win, do
for(int i=0; i < x.size() - 1; i++){
x_wid = (x[i] + x_offset) / width_scale;
y_wid = (y[i] + y_offset) / height_scale;
y_errors_wid = ((y_errors[i]/A0) / height_scale);
// y_errors_wid = ((y_errors[i]/A0) / height_scale);
y_errors_wid = ((y_errors[i]) / height_scale);
//draws the point
XFillRectangle(disp, wind, DefaultGC(disp, screen), x_wid -3, y_wid -3, 6, 6);
@ -460,7 +461,8 @@ int HistoGUIad::DrawData(double x_low_win, double y_low_win, double x_hi_win, do
x_wid = (x[i] + x_offset) / width_scale;
y_wid = (y[i] + y_offset) / height_scale;
y_errors_wid = ((y_errors[i]/A0) / height_scale);
// y_errors_wid = ((y_errors[i]/A0) / height_scale);
y_errors_wid = ((y_errors[i]) / height_scale);
//draws the point
XFillRectangle(disp, wind, DefaultGC(disp, screen), x_wid -3, y_wid -3, 6, 6);

8
ad.txt
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@ -1,7 +1,7 @@
Radius = 3 [cm]
Distance = 4 [cm]
Thickness = 5 [cm]
Atten.C = 0.294297 [cm^-1]
Gamma_E = 1062 [KeV]
QD2 = 0.801748
QD4 = 0.447498
Atten.C = 0.282206 [cm^-1]
Gamma_E = 1147 [KeV]
QD2 = 0.802565
QD4 = 0.44946