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Subsections

# Branching Ratios and Decay Channels

G4Decay selects a decay mode for the particle according to branching ratios defined in the G4DecayTable class, which is a member of the G4ParticleDefinition class. Each mode is implemented as a class derived from G4VDecayChannel and is responsible for generating the secondaries and the kinematics of the decay. In a given decay channel the daughter particle momenta are calculated in the rest frame of the parent and then boosted into the laboratory frame. Polarization is not currently taken into account for either the parent or its daughters.

A large number of specific decay channels may be required to simulate an experiment, ranging from two-body to many-body decays and to semi-leptonic decays. Most of these are covered by the five decay channel classes provided by Geant4:
 G4PhaseSpaceDecayChannel : phase space decay G4DalitzDecayChannel : dalitz decay G4MuonDecayChannel : muon decay G4TauLeptonicDecayChannel : tau leptonic decay G4KL3DecayChannel : semi-leptonic decays of kaon .

## G4PhaseSpaceDecayChannel

The majority of decays in Geant4 are implemented using the G4PhaseSpaceDecayChannel class. It simulates phase space decays with isotropic angular distributions in the center-of-mass system. Three private methods of G4PhaseSpaceDecayChannel are provided to handle two-, three- and N-body decays:
 TwoBodyDecayIt() ThreeBodyDecayIt() ManyBodyDecayIt()

Some examples of decays handled by this class are:

and

## G4DalitzDecayChannel

The Dalitz decay

and other Dalitz-like decays, such as

and

are simulated by the G4DalitzDecayChannel class. In general, it handles any decay of the form

where is a spin-0 meson of mass and are leptons of mass . The angular distribution of the is isotropic in the center-of-mass system of the parent particle and the leptons are generated isotropically and back-to-back in their center-of-mass frame. The magnitude of the leptons' momentum is sampled from the distribution function

where is the square of the sum of the leptons' energy in their center-of-mass frame.

## Muon Decay

G4MuonDecayChannel simulates muon decay according to theory. Neglecting the electron mass, the electron energy is sampled from the following distribution:

where:
 : decay rate : : electron energy : maximum electron energy

The momenta of the two neutrinos are not sampled from their distributions. Instead they are generated back-to-back and isotropically in the neutrinos' center-of-mass frame, with the magnitude of the neutrino momentum chosen to conserve energy in the decay. The two neutrinos are then boosted opposite to the momentum of the decay electron. This approximation is sufficient for most simulations because the neutrino is usually not observed in any detector.

Currently, neither the polarization of the muon or the electron is considered in this class.

## Leptonic Tau Decay

G4TauLeptonicDecayChannel simulates leptonic tau decays according to theory. This class is valid for both

and

modes.

The energy spectrum is calculated without neglecting lepton mass as follows:

where:
 : decay rate : daughter lepton energy (total energy) : daughter lepton momentum : daughter lepton mass

As in the case of muon decay, the energies of the two neutrinos are not sampled from their spectra, but are calculated so that energy and momentum are conserved. Polarization of the and final state leptons is not taken into account in this class.

## Kaon Decay

The class G4KL3DecayChannel simulates the following four semi-leptonic decay modes of the kaon:

 : : : :

Assuming that only the vector current contributes to decays, the matrix element can be described by using two dimensionless form factors, and , which depend only on the momentum transfer .
The Dalitz plot density used in this class is as follows [1]:

where:
Here is the ratio of the two form factors

is assumed to depend linearly on t, i.e.

and is assumed to be constant due to time reversal invariance.

Two parameters, and are then used for describing the Dalitz plot density in this class. The values of these parameters are taken to be the world average values given by the Particle Data Group [2].

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