# How can I plot the mode field distribution?#

Date

Category

2023-12-18 21:26:09

Mode Solver

To plot the field distribution of the optical modes obtained using the Tidy3D mode solver, you can follow the example below. We have considered a 500 x 220 nm silicon-on-insulator (SOI) waveguide operating at 1.55 $$\mu$$m.

from tidy3d.plugins.mode import ModeSolver
from tidy3d.plugins.mode.web import run as run_mode_solver

# Define the waveguide.
waveguide = tidy3d.Structure(
geometry=tidy3d.Box(size=(tidy3d.inf, 0.5, 0.22)),
medium=tidy3d.Medium(permittivity=3.47**2),
)

# Build a simulation object including the waveguide.
sim = tidy3d.Simulation(
size=(10, 2.5, 1.5),
grid_spec=tidy3d.GridSpec.auto(min_steps_per_wvl=20, wavelength=1.55),
structures=[waveguide],
run_time=1e-12,
boundary_spec=tidy3d.BoundarySpec.all_sides(boundary=tidy3d.PML()),
)

# Plane where we want to solve the modes.
plane = tidy3d.Box(center=(0, 0, 0), size=(0, 2.5, 1.5))

# Mode specification.
mode_spec = tidy3d.ModeSpec(
num_modes=4,
target_neff=3.47,
group_index_step=True,
)

# Build the mode solver.
freq0 = tidy3d.C_0 / 1.55
mode_solver = ModeSolver(
simulation=sim,
plane=plane,
mode_spec=mode_spec,
freqs=[freq0],
)

# Run the server-side mode solver.
mode_data = run_mode_solver(mode_solver)

# Plot the mode field distribution.
fig, ax = plt.subplots(mode_spec.num_modes, 3, tight_layout=True, figsize=(10, 3*mode_spec.num_modes),
)
for j in range(mode_spec.num_modes):
mode_solver.plot_field("E", "abs", mode_index=j, f=freq0, ax=ax[j, 0])
mode_solver.plot_field("Ey", "real", mode_index=j, f=freq0, ax=ax[j, 1])
mode_solver.plot_field("Ez", "real", mode_index=j, f=freq0, ax=ax[j, 2])
plt.show()



For more details on how to set up, run, and visualize the solver results, please refer to this notebook.