envelope_3d module

Define Envelope3D, an envelope solver.

class Envelope3D(*, flag_phi_abs, n_steps_per_cell, out_folder, default_field_map_folder, method='RK4', phi_s_definition='historical', **kwargs)[source]

Bases: BeamCalculator

A 3D envelope solver.

Parameters:

  • flag_phi_abs (bool)

  • n_steps_per_cell (int)

  • out_folder (Path | str)

  • default_field_map_folder (Path | str)

  • method (Literal['RK4'], default: 'RK4')

  • phi_s_definition (Literal['historical', 'lagniel'], default: 'historical')

flag_cython = False
__init__(*, flag_phi_abs, n_steps_per_cell, out_folder, default_field_map_folder, method='RK4', phi_s_definition='historical', **kwargs)[source]

Set the proper motion integration function, according to inputs.

Parameters:

  • flag_phi_abs (bool)

  • n_steps_per_cell (int)

  • out_folder (Path | str)

  • default_field_map_folder (Path | str)

  • method (Literal['RK4'], default: 'RK4')

  • phi_s_definition (Literal['historical', 'lagniel'], default: 'historical')

_set_up_specific_factories()[source]

Set up the factories specific to the BeamCalculator.

This method is called in the BeamCalculator.__init__(), hence it appears only in the base BeamCalculator.

Return type:

None

run(elts, update_reference_phase=False, **kwargs)[source]

Compute beam propagation in 3D, envelope calculation.

Parameters:

  • elts (ListOfElements) – List of elements in which the beam must be propagated.

  • update_reference_phase (bool, optional) – To change the reference phase of cavities when it is different from the one asked in the TOML. To use after the first calculation, if BeamCalculator.flag_phi_abs does not correspond to CavitySettings.reference. The default is False.

Returns:

simulation_output – Holds energy, phase, transfer matrices (among others) packed into a single object.

Return type:

SimulationOutput

run_with_this(set_of_cavity_settings, elts, use_a_copy_for_nominal_settings=True)[source]

Compute beam propagation with non-nominal settings.

Parameters:

  • set_of_cavity_settings (SetOfCavitySettings | None) – The new cavity settings to try. If it is None, then the cavity settings are taken from the FieldMap objects.

  • elts (ListOfElements) – List of elements in which the beam must be propagated.

  • use_a_copy_for_nominal_settings (bool, optional) – To copy the nominal CavitySettings and avoid altering their nominal counterpart. Set it to True during optimisation, to False when you want to keep the current settings. The default is True.

Returns:

simulation_output – Holds energy, phase, transfer matrices (among others) packed into a single object.

Return type:

SimulationOutput

post_optimisation_run_with_this(optimized_cavity_settings, full_elts, **specific_kwargs)[source]

Run Envelope3D with optimized cavity settings.

With this solver, we have nothing to do, nothing to update. Just call the regular run_with_this method.

Parameters:
Return type:

SimulationOutput

init_solver_parameters(accelerator)[source]

Create the number of steps, meshing, transfer functions for elts.

The solver parameters are stored in the Element’s beam_calc_param.

Parameters:

accelerator (Accelerator) – Object which ListOfElements must be initialized.

Return type:

None

property is_a_multiparticle_simulation: bool

Return False.

property is_a_3d_simulation: bool

Return True.

_compute_cavity_parameters(results)[source]

Compute the cavity parameters by calling _phi_s_func.

Parameters:

results (dict) – The dictionary of results as returned by the transfer matrix function wrapper.

Returns:

Accelerating voltage in MV and synchronous phase in radians. If the cavity is failed, two np.nan are returned.

Return type:

tuple[float, float]

_abc_impl = <_abc._abc_data object at 0x70e25488ff80>
_store_entry_phase_in_settings(phi_bunch_abs, cavity_settings)[source]

Set entry phase.

Parameters:
Return type:

None