tidy3d.AstigmaticGaussianBeam

tidy3d.AstigmaticGaussianBeam#

class AstigmaticGaussianBeam[source]#

Bases: AngledFieldSource, PlanarSource, BroadbandSource

The simple astigmatic Gaussian distribution allows both an elliptical intensity profile and different waist locations for the two principal axes of the ellipse. When equal waist sizes and equal waist distances are specified in the two directions, this source becomes equivalent to GaussianBeam.

Parameters:

  • name (Optional[str] = None) – Optional name for the source.

  • center (Optional[tuple[Union[float, autograd.tracer.Box], Union[float, autograd.tracer.Box], Union[float, autograd.tracer.Box]]] = None) – [units = um]. Center of object in x, y, and z.

  • size (tuple[Union[NonNegativeFloat, autograd.tracer.Box], Union[NonNegativeFloat, autograd.tracer.Box], Union[NonNegativeFloat, autograd.tracer.Box]]) – [units = um]. Size in x, y, and z directions.

  • source_time (Union[GaussianPulse, ContinuousWave, CustomSourceTime, BroadbandPulse, BasebandStep, BasebandGaussianPulse, BasebandRectangularPulse, BasebandCustomSourceTime]) – Specification of the source time-dependence.

  • num_freqs (int = 1) – Number of points used to approximate the frequency dependence of the injected field. For broadband, angled Gaussian beams it is advisable to check the beam propagation in an empty simulation to ensure there are no injection artifacts when ‘num_freqs’ > 1. Note that larger values of ‘num_freqs’ could spread out the source time signal and introduce numerical noise, or prevent timely field decay.

  • direction (Literal['+', '-']) – Specifies propagation in the positive or negative direction of the injection axis.

  • angle_theta (float = 0.0) – [units = rad]. Polar angle of the propagation axis from the injection axis.

  • angle_phi (float = 0.0) – [units = rad]. Azimuth angle of the propagation axis in the plane orthogonal to the injection axis.

  • pol_angle (float = 0) – [units = rad]. Specifies the angle between the electric field polarization of the source and the plane defined by the injection axis and the propagation axis (rad). pol_angle=0 (default) specifies P polarization, while pol_angle=np.pi/2 specifies S polarization. At normal incidence when S and P are undefined, pol_angle=0 defines: - Ey polarization for propagation along x.- Ex polarization for propagation along y.- Ex polarization for propagation along z.

  • waist_sizes (tuple[PositiveFloat, PositiveFloat] = (1.0, 1.0)) – [units = um]. Size of the beam at the waist in the local x and y directions.

  • waist_distances (tuple[float, float] = (0.0, 0.0)) – [units = um]. Distance to the beam waist along the propagation direction for the waist sizes in the local x and y directions. Positive values place the waist behind the source plane (toward the negative normal axis); negative values place the waist in front of the source plane. This definition is independent of the direction parameter.

Notes

This class implements the simple astigmatic Gaussian beam described in [1].

References:

Example

>>> from tidy3d import GaussianPulse
>>> pulse = GaussianPulse(freq0=200e12, fwidth=20e12)
>>> gauss = AstigmaticGaussianBeam(
...     size=(0,3,3),
...     source_time=pulse,
...     pol_angle=np.pi / 2,
...     direction='+',
...     waist_sizes=(1.0, 2.0),
...     waist_distances = (3.0, 4.0))

Attributes

waist_sizes

waist_distances

num_freqs

angle_theta

angle_phi

pol_angle

direction

source_time

size

center

name

Methods

backward_waist_warning()

Emit warning about changed waist distance interpretation.

Inherited Common Usage

waist_sizes#
waist_distances#
num_freqs#
backward_waist_warning()#

Emit warning about changed waist distance interpretation.