tidy3d.Boundary#
- class Boundary[source]#
Bases:
Tidy3dBaseModel
Boundary conditions at the minus and plus extents along a dimension.
- Parameters:
plus (Attribute:
plus
) –Type
Union[Periodic, PECBoundary, PMCBoundary, PML, StablePML, Absorber, BlochBoundary]
Default
= PML(nameNone, type’PML’, num_layers12, parametersPMLParams(sigma_order3,, sigma_min0.0,, sigma_max1.5,, type’PMLParams’,, kappa_order3,, kappa_min1.0,, kappa_max3.0,, alpha_order1,, alpha_min0.0,, alpha_max0.0))
Description
Boundary condition on the plus side along a dimension.
minus (Attribute:
minus
) –Type
Union[Periodic, PECBoundary, PMCBoundary, PML, StablePML, Absorber, BlochBoundary]
Default
= PML(nameNone, type’PML’, num_layers12, parametersPMLParams(sigma_order3,, sigma_min0.0,, sigma_max1.5,, type’PMLParams’,, kappa_order3,, kappa_min1.0,, kappa_max3.0,, alpha_order1,, alpha_min0.0,, alpha_max0.0))
Description
Boundary condition on the minus side along a dimension.
Notes
To specify individual boundary conditions along different dimensions, instead of
BoundarySpec
, this class is used, which defines theplus
andminus
boundaries along a single dimension.Example
>>> boundary = Boundary(plus = PML(), minus = PECBoundary())
See also
BoundarySpec
Specifies boundary conditions on each side of the domain and along each dimension.
PML
A standard PML along a single dimension.
- Notebooks
Attributes
Methods
absorber
([num_layers, parameters])Adiabatic absorber boundary specification on both sides along a dimension.
bloch
(bloch_vec)Bloch boundary specification on both sides along a dimension.
bloch_from_source
(source, domain_size, axis)Bloch boundary specification on both sides along a dimension based on a given source.
bloch_on_both_sides
(values)Error if a Bloch boundary is applied on only one side.
pec
()PEC boundary specification on both sides along a dimension.
periodic
()Periodic boundary specification on both sides along a dimension.
periodic_with_pec_pmc
(values)If a PBC is specified along with PEC or PMC on the other side, manually set the PBC to PEC or PMC so that no special treatment of halos is required.
periodic_with_pml
(values)Error if PBC is specified with a PML.
pmc
()PMC boundary specification on both sides along a dimension.
pml
([num_layers, parameters])PML boundary specification on both sides along a dimension.
stable_pml
([num_layers, parameters])Stable PML boundary specification on both sides along a dimension.
- plus#
- minus#
- classmethod bloch_on_both_sides(values)[source]#
Error if a Bloch boundary is applied on only one side.
- classmethod periodic_with_pec_pmc(values)[source]#
If a PBC is specified along with PEC or PMC on the other side, manually set the PBC to PEC or PMC so that no special treatment of halos is required.
- classmethod periodic()[source]#
Periodic boundary specification on both sides along a dimension.
Example
>>> pbc = Boundary.periodic()
- classmethod bloch(bloch_vec)[source]#
Bloch boundary specification on both sides along a dimension.
- Parameters:
bloch_vec (complex) – Normalized component of the Bloch vector in units of 2 * pi / (size along dimension) in the background medium, along the dimension in which the boundary is specified.
Example
>>> bloch = Boundary.bloch(bloch_vec=1)
- classmethod bloch_from_source(source, domain_size, axis, medium=None)[source]#
Bloch boundary specification on both sides along a dimension based on a given source.
- Parameters:
source (Union[
GaussianBeam
,ModeSource
,PlaneWave
]) – Angled source.domain_size (float) – Size of the domain in the direction normal to the Bloch boundary
axis (int) – Axis normal to the Bloch boundary
medium (
Medium
) – Background medium associated with the Bloch vector. Default: free space.
Example
>>> from tidy3d import GaussianPulse, PlaneWave, inf >>> pulse = GaussianPulse(freq0=200e12, fwidth=20e12) >>> pw_source = PlaneWave( ... size=(inf,inf,0), source_time=pulse, direction='+', angle_theta=0.2, angle_phi=0.3) >>> bloch = Boundary.bloch_from_source(source=pw_source, domain_size=5, axis=0)
- classmethod pec()[source]#
PEC boundary specification on both sides along a dimension.
Example
>>> pec = Boundary.pec()
- classmethod pmc()[source]#
PMC boundary specification on both sides along a dimension.
Example
>>> pmc = Boundary.pmc()
- classmethod pml(num_layers=12, parameters=PMLParams(sigma_order=3, sigma_min=0.0, sigma_max=1.5, type='PMLParams', kappa_order=3, kappa_min=1.0, kappa_max=3.0, alpha_order=1, alpha_min=0.0, alpha_max=0.0))[source]#
PML boundary specification on both sides along a dimension.
- Parameters:
num_layers (int = 12) – Number of layers of standard PML to add to + and - boundaries.
parameters (
PMLParams
) – Parameters of the complex frequency-shifted absorption poles.
Example
>>> pml = Boundary.pml(num_layers=20)
- classmethod stable_pml(num_layers=40, parameters=PMLParams(sigma_order=3, sigma_min=0.0, sigma_max=1.0, type='PMLParams', kappa_order=3, kappa_min=1.0, kappa_max=5.0, alpha_order=1, alpha_min=0.0, alpha_max=0.9))[source]#
Stable PML boundary specification on both sides along a dimension.
- Parameters:
num_layers (int = 40) – Number of layers of ‘stable’ PML to add to + and - boundaries.
parameters (
PMLParams
) – ‘Stable’ parameters of the complex frequency-shifted absorption poles.
Example
>>> stable_pml = Boundary.stable_pml(num_layers=40)
- classmethod absorber(num_layers=40, parameters=AbsorberParams(sigma_order=3, sigma_min=0.0, sigma_max=6.4, type='AbsorberParams'))[source]#
Adiabatic absorber boundary specification on both sides along a dimension.
- Parameters:
num_layers (int = 40) – Number of layers of absorber to add to + and - boundaries.
parameters (
PMLParams
) – Adiabatic absorber parameters.
Example
>>> absorber = Boundary.absorber(num_layers=40)
- __hash__()#
Hash method.