|
const Double_t | LauConstants::mD = 1.8693 |
| Mass of charged D (GeV/c^2) More...
|
|
const Double_t | LauConstants::mD0 = 1.8645 |
| Mass of neutral D (GeV/c^2) More...
|
|
const Double_t | LauConstants::mDs = 1.96849 |
| Mass of Ds (GeV/c^2) More...
|
|
const Double_t | LauConstants::mB = 5.2791 |
| Mass of charged B (GeV/c^2) More...
|
|
const Double_t | LauConstants::mB0 = 5.2794 |
| Mass of neutral B_d (GeV/c^2) More...
|
|
const Double_t | LauConstants::mBs0 = 5.3668 |
| Mass of neutral B_s (GeV/c^2) More...
|
|
const Double_t | LauConstants::mPi = 0.13957018 |
| Mass of pi+- (GeV/c^2) More...
|
|
const Double_t | LauConstants::mPi0 = 0.1349766 |
| Mass of pi0 (GeV/c^2) More...
|
|
const Double_t | LauConstants::mK = 0.493677 |
| Mass of K+- (GeV/c^2) More...
|
|
const Double_t | LauConstants::mK0 = 0.497648 |
| Mass of K0 (GeV/c^2) More...
|
|
const Double_t | LauConstants::mEta = 0.54775 |
| Mass of eta (GeV/c^2) More...
|
|
const Double_t | LauConstants::mEtaPrime = 0.95778 |
| Mass of eta' (GeV/c^2) More...
|
|
const Double_t | LauConstants::mDSq = mD*mD |
| Square of charged D mass. More...
|
|
const Double_t | LauConstants::mD0Sq = mD0*mD0 |
| Square of neutral D mass. More...
|
|
const Double_t | LauConstants::mDsSq = mDs*mDs |
| Square of Ds mass. More...
|
|
const Double_t | LauConstants::mBSq = mB*mB |
| Square of charged B mass. More...
|
|
const Double_t | LauConstants::mB0Sq = mB0*mB0 |
| Square of neutral B_d mass. More...
|
|
const Double_t | LauConstants::mBs0Sq = mBs0*mBs0 |
| Square of neutral B_s mass. More...
|
|
const Double_t | LauConstants::mPiSq = mPi*mPi |
| Square of pi+- mass. More...
|
|
const Double_t | LauConstants::mPi0Sq = mPi0*mPi0 |
| Square of pi0 mass. More...
|
|
const Double_t | LauConstants::mKSq = mK*mK |
| Square of K+- mass. More...
|
|
const Double_t | LauConstants::mK0Sq = mK0*mK0 |
| Square of K0 mass. More...
|
|
const Double_t | LauConstants::mEtaSq = mEta*mEta |
| Square of eta mass. More...
|
|
const Double_t | LauConstants::mEtaPrimeSq = mEtaPrime*mEtaPrime |
| Square of eta' mass. More...
|
|
const Double_t | LauConstants::tauB = 1.671 |
| Lifetime of the B+ in ps. More...
|
|
const Double_t | LauConstants::tauB0 = 1.536 |
| Lifetime of the B0 in ps. More...
|
|
const Double_t | LauConstants::deltaMd = 0.502 |
| Mass difference of the B_H and B_L. More...
|
|
const Double_t | LauConstants::beta = 21.7*TMath::DegToRad() |
| Angle beta of the unitarity triangle. More...
|
|
const Double_t | LauConstants::sin2beta = TMath::Sin(2.0*beta) |
| Sine of twice the angle beta of the unitarity triangle. More...
|
|
const Double_t | LauConstants::pi = TMath::Pi() |
| Pi. More...
|
|
const Double_t | LauConstants::rootPi = TMath::Sqrt(TMath::Pi()) |
| Square root of Pi. More...
|
|
const Double_t | LauConstants::twoPi = 2.0*TMath::Pi() |
| Two times Pi. More...
|
|
const Double_t | LauConstants::threePi = 3.0*TMath::Pi() |
| Three times Pi. More...
|
|
const Double_t | LauConstants::sixPi = 6.0*TMath::Pi() |
| Six times Pi. More...
|
|
const Double_t | LauConstants::pim4 = 1.0/TMath::Power(TMath::Pi(), 0.25) |
| One over Pi to the one-fourth. More...
|
|
const Double_t | LauConstants::piBy2 = 0.5*TMath::Pi() |
| Pi divided by two. More...
|
|
const Double_t | LauConstants::rootPiBy2 = TMath::Sqrt(0.5*TMath::Pi()) |
| Square root of Pi divided by two. More...
|
|
const Double_t | LauConstants::invPi = 1.0/TMath::Pi() |
| One over Pi. More...
|
|
const Double_t | LauConstants::root2 = TMath::Sqrt(2.0) |
| Square root of two. More...
|
|
const Double_t | LauConstants::log4 = TMath::Log(4.0) |
| Logarithm of four. More...
|
|