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Electric fields sampled on a regular grid


Electrical dipole field low resolution and low sampling rate
Field of an electrical dipole with low sampling rate on a regular grid. The strength of the field is color-coded from blue (weak field) to red (strong field).

Electrical dipole field low resolution and medium sampling rate
Field of an electrical dipole with mediun sampling rate on a regular grid. The strength of the field is color-coded from blue (weak field) to red (strong field).

Electrical dipole field low resolution and high sampling rate
Field of an electrical dipole with high sampling rate on a regular grid. The strength of the field is color-coded from blue (weak field) to red (strong field).

Electrical hexpole field low resolution and low sampling rate
Field of an electrical hexapole with low sampling rate on a regular grid. The strength of the field is color-coded from blue (weak field) to red (strong field).

Electrical hexpole field low resolution and medium sampling rate
Field of an electrical hexapole with medium sampling rate on a regular grid. The strength of the field is color-coded from blue (weak field) to red (strong field).

Electrical hexpole field low resolution and high sampling rate
Field of an electrical hexapole with high sampling rate on a regular grid. The strength of the field is color-coded from blue (weak field) to red (strong field).

Electrical tripole field low resolution and high sampling rate
Field of an electrical triapole with high sampling rate on a regular grid. The strength of the field is color-coded from blue (weak field) to red (string field). The inner structure of the tripole is vaguely visible through the outer field.




Electric fields sampled on a jittered grid


Electrical dipole field low resolution and low sampling rate
Field of an electrical dipole with low sampling rate on a jittered grid (30% randomness). The strength of the field is color-coded from blue (weak field) to red (strong field).

Electrical dipole field low resolution and medium sampling rate
Field of an electrical dipole with medium sampling rate on a jittered grid (30% randomness). The strength of the field is color-coded from blue (weak field) to red (strong field).

Electrical dipole field low resolution and high sampling rate
Field of an electrical dipole with high sampling rate on a jittered grid (30% randomness). The strength of the field is color-coded from blue (weak field) to red (strong field).

Electrical hexpole field low resolution and low sampling rate
Field of an electrical hexapole with low sampling rate on a jittered grid (30% randomness). The strength of the field is color-coded from blue (weak field) to red (strong field).

Electrical hexpole field low resolution and medium sampling rate
Field of an electrical hexapole with medium sampling rate on a jittered grid (30% randomness). The strength of the field is color-coded from blue (weak field) to red (strong field).

Electrical hexpole field low resolution and high sampling rate
Field of an electrical hexapole with high sampling rate on a jittered grid (30% randomness). The strength of the field is color-coded from blue (weak field) to red (strong field).


Montage of an electrical tripole field with thresholded field strengths. The strength of the field is color-coded from blue (weak field) to red (strong field). Higher energy densities exhibit higher levels of detail.





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