flex_rf.tidy3d.SurfaceFieldTimeData
Type: class │ Base(s): ElectromagneticSurfaceFieldData
Example(s)
Section titled “Example(s)”from tidy3d import PointDataArray, IndexedSurfaceFieldTimeDataArray, TriangularSurfaceDataset, CellDataArrayimport tidy3d as tdold_logging_level = td.config.logging_leveltd.config.logging_level = "ERROR"points = PointDataArray([[0, 0, 0], [0, 1, 0], [1, 1, 1]], dims=["index", "axis"])cells = CellDataArray([[0, 1, 2]], dims=["cell_index", "vertex_index"])values = PointDataArray([[1, 0, 0], [0, 1, 0], [0, 0, 1]], dims=["index", "axis"])field_values = IndexedSurfaceFieldTimeDataArray(np.ones((3, 1, 3, 1)) + 0j, coords={"index": [0, 1, 2], "side": ["outside"],"axis": [0, 1, 2], "t": [1e-9]})field = TriangularSurfaceDataset(points=points, cells=cells, values=field_values)normal = TriangularSurfaceDataset(points=points, cells=cells, values=values)monitor = SurfaceFieldTimeMonitor( size=(2,4,6), interval=100, name='field', fields=['E', 'H'])data = SurfaceFieldTimeData(monitor=monitor, E=field, H=field, normal=normal)td.config.logging_level = old_logging_levelParameters
Section titled “Parameters”E [TriangularSurfaceDataset | None] = None |
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Spatial distribution of the electric field on the one side of the surface. |
H [TriangularSurfaceDataset | None] = None |
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Spatial distribution of the magnetic field on the one side of the surface. |
normal [TriangularSurfaceDataset] = ... |
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Normal direction of the surface oriented outward from the surface. |
symmetry [tuple[Symmetry, Symmetry, Symmetry]] = (0, 0, 0) |
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Symmetry of the original simulation in x, y, and z. |
symmetry_center [Coordinate] = (0, 0, 0) |
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Symmetry center of the original simulation in x, y, and z. |
monitor [SurfaceFieldTimeMonitor] = ... |
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Time-domain field monitor associated with the data. |
Attributes
Section titled “Attributes”poynting [TriangularSurfaceDataset] |
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Poynting vector for time-domain data. |