read_snirf_aux_data() / fails when /nirs/aux/dataTimeSeries is 2D array

#### Describe the bug
The [example aux dataset ](https://forae.s3.amazonaws.com/2022-08-05_002.snirf.zip)used in the [aux tutorial](https://mne.tools/mne-nirs/0.4/auto_examples/general/plot_60_aux_data.html) has /nirs/aux/dataTimeSeries in 1D format.


This means that read_snirf_aux_data() runs fine on this example dataset.

However, the [snirf spec states](https://github.com/fNIRS/snirf/blob/master/snirf_specification.md#nirsiauxjdatatimeseries) that /nirs/aux/dataTimeSeries should be a 2D array. 

![image](https://github.com/mne-tools/mne-nirs/assets/61238634/919359cb-7ab3-41ab-82fa-e0579fabb64a)

Trying to read a /nirs/aux/dataTimeSeries 2D array with read_snirf_aux_data() fails on line 56 due to **d** containing 2D arrays

https://github.com/mne-tools/mne-nirs/blob/2fdddfe9962ad000ebe60d71d0f9794d1800acbd/mne_nirs/io/snirf/_aux.py#L47-L57

![image](https://github.com/mne-tools/mne-nirs/assets/61238634/6b0f772e-8ba2-4196-ad2b-f5e9f736899f)
![image](https://github.com/mne-tools/mne-nirs/assets/61238634/e1c38396-ee25-4156-bf72-76cd5835e960)




#### Steps to reproduce

Can't use the offical snirf samples for demonstration, because /nirs/aux/time in those files are 2D arrays, so this leads to another fail.

Use [this file ](https://github.com/user-attachments/files/15612818/04_25090.zip) with the code below to reproduce .
```python
import numpy as np
import logging
import h5py


from scipy import interpolate
from pandas import DataFrame
from mne.io import Raw

fname = r"04_25090.snirf"



dat = h5py.File(fname, 'r')

 
        if 'nirs' in dat:
            basename = "nirs"
        elif 'nirs1' in dat:
            basename = "nirs1"
        else:
            raise RuntimeError("Data does not contain nirs field")

        all_keys = list(dat.get(basename).keys())
        aux_keys = [i for i in all_keys if i.startswith('aux')]
        print(aux_keys)
        aux_names = [_decode_name(dat.get(f'{basename}/{k}/name'))
                     for k in aux_keys]
        logging.debug(f"Found auxiliary channels {aux_names}")

        d = {'times': raw.times}
        for idx, aux in enumerate(aux_keys):
            print("idx:",idx)
            print("aux:",aux)
            aux_data = np.array(dat.get(f'{basename}/{aux}/dataTimeSeries'))
            aux_time = np.array(dat.get(f'{basename}/{aux}/time'))
            aux_data_interp = interpolate.interp1d(aux_time, aux_data,
                                                   axis=0, bounds_error=False,
                                                   fill_value='extrapolate')
            aux_data_matched_to_raw = aux_data_interp(raw.times)
            d[aux_names[idx]] = aux_data_matched_to_raw

        df = DataFrame(data=d)
        df = df.set_index('times')




```

#### Expected results
Since /nirs/aux/dataTimeSeries should be 2D array it should work fine to read data stored in this way


#### Actual results
Fail due to code expecting a 1D array


#### Additional information

As a quick fix for my data I used .flatten() on the aux_data (line 48), but that's not really a fix in case the data is actually 2D.




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read_snirf_aux_data() / fails when /nirs/aux/dataTimeSeries is 2D array #558

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	for idx, aux in enumerate(aux_keys):
	aux_data = np.array(dat.get(f"{basename}/{aux}/dataTimeSeries"))
	aux_time = np.array(dat.get(f"{basename}/{aux}/time"))
	aux_data_interp = interpolate.interp1d(
	aux_time, aux_data, axis=0, bounds_error=False, fill_value="extrapolate"
	)
	aux_data_matched_to_raw = aux_data_interp(raw.times)
	d[aux_names[idx]] = aux_data_matched_to_raw

	df = DataFrame(data=d)
	df = df.set_index("times")