I am trying to interpolate an image cube NDIM=(dim_frequ, dim_spaxel1, dim_spaxel1) along the frequency axis. The aim is to oversample the frequency space. The array may contain nans. It would, of course, be possible to run two for loops over the array but that's definitely too slow.

What I want in pseudo code:

```
import numpy as np
from scipy.interpolate import interp1d
dim_frequ, dim_spaxel1, dim_spaxel2 = 2559, 70, 70
cube = np.random.rand(dim_frequ, dim_spaxel1, dim_spaxel2)
cube.ravel()[np.random.choice(cube.size, 1000, replace=False)] = np.nan
wavelength = np.arange(1.31, 2.5894999999, 5e-4) # deltaf so that len(wavelength)==DIMfrequ
wavelength_over = np.arange(1.31, 2.5894999999, 5e-5)
cube_over = interp1d(wavelength, cube, axis=0, kind='quadratic', fill_value="extrapolate")(wavelength_over)
cube_over[np.isnan(cube_over)] # array([], dtype=float64)
```

- I've tried
`np.interp`

which can only handle 1D data (?) - I've tried
`scipy.interpolate.interp1d`

which can in principle handle arrays along a given axis, but returns nans (I assume because of the nans in the array)- This actually works in the case the kind is = 'linear'. I'd actually like it a bit fancier though, as soon as I set kind to 'quadratic' it returns nans.

- I've tried the
`scipy.interpolate.CubicSpline`

which raises a`ValueError`

again because of the nans.

Any ideas what else to try? I am quite free in terms of the type of the interpolation, but it shouldn't be *too fancy*, i.e. nothing crazier than a spline or a low order polynomial