fix SplitPole analyzer
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dc93fba711
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491a5be496
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@ -167,7 +167,7 @@ inline void SplitPole::SetUpCanvas(){
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connect(leTarget, &QLineEdit::returnPressed, this, [=](){
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hit.CalConstants(leTarget->text().toStdString(),
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leBeam->text().toStdString(),
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leRecoil->text().toStdString(), sbAngle->value(), sbEnergy->value());
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leRecoil->text().toStdString(), sbEnergy->value(), sbAngle->value() );
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hit.CalZoffset(sbBfield->value());
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FillConstants();
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});
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@ -175,7 +175,7 @@ inline void SplitPole::SetUpCanvas(){
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connect(leBeam, &QLineEdit::returnPressed, this, [=](){
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hit.CalConstants(leTarget->text().toStdString(),
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leBeam->text().toStdString(),
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leRecoil->text().toStdString(), sbAngle->value(), sbEnergy->value());
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leRecoil->text().toStdString(), sbEnergy->value(), sbAngle->value());
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hit.CalZoffset(sbBfield->value());
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FillConstants();
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});
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@ -183,7 +183,7 @@ inline void SplitPole::SetUpCanvas(){
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connect(leRecoil, &QLineEdit::returnPressed, this, [=](){
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hit.CalConstants(leTarget->text().toStdString(),
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leBeam->text().toStdString(),
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leRecoil->text().toStdString(), sbAngle->value(), sbEnergy->value());
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leRecoil->text().toStdString(), sbEnergy->value(), sbAngle->value());
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hit.CalZoffset(sbBfield->value());
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FillConstants();
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});
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@ -191,7 +191,7 @@ inline void SplitPole::SetUpCanvas(){
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connect(sbBfield, &RSpinBox::returnPressed, this, [=](){
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hit.CalConstants(leTarget->text().toStdString(),
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leBeam->text().toStdString(),
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leRecoil->text().toStdString(), sbAngle->value(), sbEnergy->value());
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leRecoil->text().toStdString(), sbEnergy->value(), sbAngle->value());
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hit.CalZoffset(sbBfield->value());
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FillConstants();
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});
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@ -199,7 +199,7 @@ inline void SplitPole::SetUpCanvas(){
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connect(sbAngle, &RSpinBox::returnPressed, this, [=](){
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hit.CalConstants(leTarget->text().toStdString(),
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leBeam->text().toStdString(),
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leRecoil->text().toStdString(), sbAngle->value(), sbEnergy->value());
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leRecoil->text().toStdString(), sbEnergy->value(), sbAngle->value());
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hit.CalZoffset(sbBfield->value());
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FillConstants();
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});
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@ -207,7 +207,7 @@ inline void SplitPole::SetUpCanvas(){
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connect(sbEnergy, &RSpinBox::returnPressed, this, [=](){
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hit.CalConstants(leTarget->text().toStdString(),
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leBeam->text().toStdString(),
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leRecoil->text().toStdString(), sbAngle->value(), sbEnergy->value());
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leRecoil->text().toStdString(), sbEnergy->value(), sbAngle->value());
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hit.CalZoffset(sbBfield->value());
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FillConstants();
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});
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@ -276,6 +276,25 @@ inline void SplitPole::SetUpCanvas(){
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sbRhoScale->setMaximum(1.5);
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sbRhoScale->setValue(1.0);
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boxLayout->addWidget(sbRhoScale, 10, 3);
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QFrame *separator2 = new QFrame(box);
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separator2->setFrameShape(QFrame::HLine);
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separator2->setFrameShadow(QFrame::Sunken);
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boxLayout->addWidget(separator2, 11, 0, 1, 4);
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QString chMapStr = "ScinR = " + QString::number(SPS::ChMap::ScinR);
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chMapStr += ", ScinL = " + QString::number(SPS::ChMap::ScinL);
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chMapStr += ", dFR = " + QString::number(SPS::ChMap::dFR);
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chMapStr += ", dFL = " + QString::number(SPS::ChMap::dFL);
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chMapStr += ", dBR = " + QString::number(SPS::ChMap::dBR);
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chMapStr += ", dBL = " + QString::number(SPS::ChMap::dBL);
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chMapStr += ", Cathode = " + QString::number(SPS::ChMap::Cathode);
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chMapStr += ", AnodeF = " + QString::number(SPS::ChMap::AnodeF);
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chMapStr += ", AnodeB = " + QString::number(SPS::ChMap::AnodeB);
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QLabel * chMapLabel = new QLabel(chMapStr, box);
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boxLayout->addWidget(chMapLabel, 12, 0, 1, 4);
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}
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//============ histograms
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@ -289,7 +308,7 @@ inline void SplitPole::SetUpCanvas(){
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h1 = new Histogram1D("Spectrum", "x", 300, 30, 70, this);
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h1->SetColor(Qt::darkGreen);
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h1->AddDataList("Test", Qt::red); // add another histogram in h1, Max Data List is 10
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//h1->AddDataList("Test", Qt::red); // add another histogram in h1, Max Data List is 10
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layout->addWidget(h1, 1, 1);
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h1g = new Histogram1D("Spectrum (PID gated)", "Ex", 300, -2, 10, this);
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@ -347,20 +366,28 @@ inline void SplitPole::UpdateHistograms(){
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hit.CalData();
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hPID->Fill(hit.eSL, hit.eSR); // x, y
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double pidX = hit.eSL;
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unsigned long long tPidX = hit.tSL;
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double pidY = hit.eAF;
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hPID->Fill(pidX, pidY); // x, y
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h1->Fill(hit.xAvg);
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//h1->Fill(hit.eSR, 1);
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h1->Fill(hit.eSL);
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h1->Fill(hit.eSR, 1);
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//check events inside any Graphical cut and extract the rate, using tSR only
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for(int p = 0; p < cutList.count(); p++ ){
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if( cutList[p].isEmpty() ) continue;
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if( cutList[p].containsPoint(QPointF(hit.eSL, hit.eSR), Qt::OddEvenFill) ){
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if( hit.tSR < tMin[p] ) tMin[p] = hit.tSR;
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if( hit.tSR > tMax[p] ) tMax[p] = hit.tSR;
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if( cutList[p].containsPoint(QPointF(pidX, pidY), Qt::OddEvenFill) ){
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if( tPidX < tMin[p] ) tMin[p] = tPidX;
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if( tPidX > tMax[p] ) tMax[p] = tPidX;
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count[p] ++;
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//printf(".... %d \n", count[p]);
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if( p == 0 ) h1g->Fill(hit.eSR);
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if( p == 0 ) {
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double xAvg = hit.xAvg * 10;
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double xAvgC = xAvg * sbRhoScale->value() + sbRhoOffset->value();
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h1g->Fill(hit.Rho2Ex(xAvgC/1000.));
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}
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}
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}
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}
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@ -106,18 +106,29 @@ public:
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isConstantCal = true;
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printf("============================================\n");
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printf(" Beam Mass : %20.4f MeV/c2\n", beam.Mass);
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printf(" beam KE : %20.4f MeV\n", beamKE);
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printf("Target Mass : %20.4f MeV/c2\n", target.Mass);
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printf("Recoil Mass : %20.4f MeV/c2\n", recoil.Mass);
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printf("H. Rec Mass : %20.4f MeV/c2\n", heavyRecoil.Mass);
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printf(" angle : %20.4f deg\n", angleDegree);
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printf(" k1 : %20.4f MeV/c\n", k1);
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printf(" Ei : %20.4f MeV\n", Ei);
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}
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double CalRecoilMomentum(double Ex){
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if( !isConstantCal ) return 0;
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float p = Ei*Ei - k1*k1;
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float q = ma*ma - (mb + Ex)*(mb + Ex);
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double p = Ei*Ei - k1*k1;
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double q = ma*ma - (mb + Ex)*(mb + Ex);
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float x = k1* ( p + q) * cs;
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float y = pow( p, 2) + pow(q, 2)- 2 * Ei * Ei * (ma* ma + (mb + Ex)*(mb + Ex)) + 2 * k1 * k1 * (ma*ma * cos(2* angleDegree * SPS::deg2rad) + (mb + Ex)*(mb + Ex));
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float z = 2 * ( Ei*Ei - k1*k1 * cs * cs) ;
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double x = k1* ( p + q) * cs;
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double y = pow( p, 2) + pow(q, 2)- 2 * Ei * Ei * (ma* ma + (mb + Ex)*(mb + Ex)) + 2 * k1 * k1 * (ma*ma * cos(2* angleDegree * SPS::deg2rad) + (mb + Ex)*(mb + Ex));
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double z = 2 * ( Ei*Ei - k1*k1 * cs * cs) ;
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return (x + Ei * sqrt(y))/z;
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