| __init__(self, radial_positions, axial_positions, major_radius, helicity) | torus_fourier_sensor | |
| axial_positions | torus_fourier_sensor | |
| convert_to_polar(self) | torus_fourier_sensor | |
| fft2(self, B, hamada_dphi=None) | torus_fourier_sensor | |
| field_fourier_amplitude_contour(self, t, m_min, m_max, n_min, n_max, fig, ax, hamada_dphi=None, part='r') | torus_fourier_sensor | |
| get_B_mesh(self, t) | torus_fourier_sensor | |
| helicity | torus_fourier_sensor | |
| hist_file | torus_fourier_sensor | |
| ifft2(self, B_n, hamada_dphi=None) | torus_fourier_sensor | |
| load_histfile(self, hist_file_path='floops.hist', norm=None) | torus_fourier_sensor | |
| major_radius | torus_fourier_sensor | |
| nphi | torus_fourier_sensor | |
| ntheta | torus_fourier_sensor | |
| place_normal_sensors(self, nphi=15, filename='floops.loc', ax=None) | torus_fourier_sensor | |
| plot_1D_fourier_amplitude(self, t, harmonics, ax, toroidal_harmonics=True, hamada_dphi=None, part='r') | torus_fourier_sensor | |
| plot_2D_fourier_amplitude(self, t, harmonics, ax, toroidal_harmonics=True, hamada_dphi=None, x_type='modes', x_mode_min=None, x_mode_max=None) | torus_fourier_sensor | |
| plot_inverse_2D_fourier_transform(self, t, fig, ax) | torus_fourier_sensor | |
| plot_m_over_n_amplitude(self, m_list, n_list, t_max, dt, ax, t_min=0, hamada_dphi=None) | torus_fourier_sensor | |
| plot_sensor_output(self, t, fig, ax) | torus_fourier_sensor | |
| plot_sensor_output_on_surface(self, t, figs, axes) | torus_fourier_sensor | |
| plot_sensor_signal_against_angle(self, t, ax, theta=True) | torus_fourier_sensor | |
| radial_positions | torus_fourier_sensor | |
| save_surfmn(self, t, filename, eliminate_negative_n=True, scale=1e-4, hamada_dphi=None) | torus_fourier_sensor | |
| sort_fft_indices_and_mesh(self, B_n_fft, n_modes, m_modes) | torus_fourier_sensor | |
| theta_list | torus_fourier_sensor | |
1.9.8