transition

import qrules.transition

Find allowed transitions between an initial and final state.

class ExecutionInfo(not_executed_node_rules: Dict[int, Set[str]] = NOTHING, violated_node_rules: Dict[int, Set[str]] = NOTHING, not_executed_edge_rules: Dict[int, Set[str]] = NOTHING, violated_edge_rules: Dict[int, Set[str]] = NOTHING)[source]

Bases: object

clear() None[source]
extend(other_result: ExecutionInfo, intersect_violations: bool = False) None[source]
not_executed_edge_rules: Dict[int, Set[str]]
not_executed_node_rules: Dict[int, Set[str]]
violated_edge_rules: Dict[int, Set[str]]
violated_node_rules: Dict[int, Set[str]]
class ProblemSet(topology: Topology, initial_facts: InitialFacts, solving_settings: GraphSettings)[source]

Bases: object

Particle reaction problem set, defined as a graph like data structure.

Parameters

  • topologyTopology that contains the structure of the reaction.

  • initial_factsInitialFacts that contain the info of initial and final state in connection with the topology.

  • solving_settings – Solving related settings such as the conservation rules and the quantum number domains.

initial_facts: InitialFacts
solving_settings: GraphSettings
to_qn_problem_set() QNProblemSet[source]
topology: Topology
class ReactionInfo(transition_groups: Iterable[StateTransitionCollection], formalism: str)[source]

Bases: object

StateTransitionCollection instances, grouped by Topology.

final_state: FrozenDict[int, Particle]
formalism: str
static from_graphs(graphs: Iterable[StateTransitionGraph[Tuple[Particle, float]]], formalism: str) ReactionInfo[source]
get_intermediate_particles() ParticleCollection[source]

Extract the names of the intermediate state particles.

initial_state: FrozenDict[int, Particle]
to_graphs() List[StateTransitionGraph[Tuple[Particle, float]]][source]
transition_groups: Tuple[StateTransitionCollection, ...]
transitions: List[StateTransition]
class SolvingMode(value)[source]

Bases: enum.Enum

Types of modes for solving.

FAST = 1

Find “likeliest” solutions only.

FULL = 2

Find all possible solutions.

class State(particle: Particle, spin_projection: SupportsFloat)[source]

Bases: object

particle: Particle
spin_projection: float
class StateTransition(topology: Topology, states, interactions)[source]

Bases: object

Frozen instance of a StateTransitionGraph of a particle with spin.

filter_states(edge_ids: Iterable[int]) Dict[int, State][source]
property final_states: Dict[int, State]
static from_graph(graph: StateTransitionGraph[Tuple[Particle, float]]) StateTransition[source]
property initial_states: Dict[int, State]
interactions: FrozenDict[int, InteractionProperties]
property intermediate_states: Dict[int, State]
property particles: Dict[int, Particle]
states: FrozenDict[int, State]
to_graph() StateTransitionGraph[Tuple[Particle, float]][source]
topology: Topology
class StateTransitionCollection(transitions: Iterable[StateTransition])[source]

Bases: collections.abc.Sequence

StateTransition instances with the same Topology and edge IDs.

__getitem__(idx: int) StateTransition[source]
__getitem__(idx: slice) Tuple[StateTransition]
final_state: FrozenDict[int, Particle]
static from_graphs(graphs: Iterable[StateTransitionGraph[Tuple[Particle, float]]]) StateTransitionCollection[source]
get_intermediate_particles() ParticleCollection[source]

Extract the particle names of the intermediate states.

initial_state: FrozenDict[int, Particle]
to_graphs() List[StateTransitionGraph[Tuple[Particle, float]]][source]
topology: Topology
transitions: Tuple[StateTransition, ...]
class StateTransitionManager(initial_state: Sequence[Union[str, Tuple[str, Sequence[float]]]], final_state: Sequence[Union[str, Tuple[str, Sequence[float]]]], particle_db: Optional[ParticleCollection] = None, allowed_intermediate_particles: Optional[List[str]] = None, interaction_type_settings: Optional[Dict[InteractionType, Tuple[EdgeSettings, NodeSettings]]] = None, formalism: str = 'helicity', topology_building: str = 'isobar', number_of_threads: Optional[int] = None, solving_mode: SolvingMode = SolvingMode.FAST, reload_pdg: bool = False, mass_conservation_factor: Optional[float] = 3.0, max_angular_momentum: int = 1, max_spin_magnitude: float = 2.0)[source]

Bases: object

Main handler for decay topologies.

See also

Generate transitions and generate_transitions

add_final_state_grouping(fs_group: Union[List[str], List[List[str]]]) None[source]
create_problem_sets() Dict[float, List[ProblemSet]][source]
find_solutions(problem_sets: Dict[float, List[ProblemSet]]) ReactionInfo[source]

Check for solutions for a specific set of interaction settings.

property formalism: str
set_allowed_interaction_types(allowed_interaction_types: Iterable[InteractionType]) None[source]
set_allowed_intermediate_particles(particle_names: List[str]) None[source]
topologies: Tuple[Topology, ...]

Topology instances over which the STM propagates quantum numbers.

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