I have the following contour plots:
fig, axes = plt.subplots(1,6, figsize=(18,3)) for idx in range(6): axes[idx].contour(KX[kxl:kxr,kxl:kxr],KY[kxl:kxr,kxl:kxr],eigs[kxl:kxr,kxl:kxr,idx].real, levels=) axes[idx].set_xlabel(x_label_k) axes.set_ylabel(y_label_k)
Overlapping them results in the following image:
fig, ax = plt.subplots(1,1, figsize=(4,4)) for idx in range(6): ax.contour(KX[kxl:kxr,kxl:kxr],KY[kxl:kxr,kxl:kxr],eigs[kxl:kxr,kxl:kxr,idx].real, levels=) ax.set_xlabel(x_label_k) ax.set_ylabel(y_label_k)
From the above image, I am interested in plotting just the 4 "circle-like" shapes that are shown in the edited image below:
If possible, I would like the pairs of (kx, ky) points that make up these elongated circles, without any of the points from the other artifacts.
I have seen that there is a way of extracting point values from a contour plot along the lines of this question, however, that gives me a set of (2000,2000) points which I have no idea how to filter. I was thinking maybe something can be done based on paths from the contour plots?
Note that one can actually see where the circle-shapes originate in the row of 6 plots, but the problem is that in order to make up the 2 smaller inner circles one has to combine subplots 2,3,4 and 5. For the larger outer ones, it is simpler as they are relative well separated in subplots 5 and 6.