I'll attempt to answer ~~your first question~~ both questions.

You asked about prepending the NaN array to {0,1} which is a cell array. Any data objects can be readily bundled into a cell array:

>> anyData = NaN(3, 2);
>> newCellArray = {anyData; {0, 1}}
newCellArray =
[3x2 double]
{1x2 cell }

If you are instead trying to concatenate the results into a numeric matrix, the following will help:

>> Maxstep=3;
>> magnetT=NaN(Maxstep,2);
>> newArray = [magnetT; 0 1]
newArray =
NaN NaN
NaN NaN
NaN NaN
0 1

For your second question, MATLAB is complaining about trying to store a vector in one element of `magnetT`

. When computing:

magnetT(i,2)=[T ,sum(mlat(:))./L2];

the right-hand side will create a vector while the left-hand side is trying to store that vector where a scalar is expected. I don't know exactly what you're trying to achieve and I'm not very familiar with Mathematica syntax but perhaps you need to do this instead:

magnetT(ii,:) = [T sum(mlat(:))./L2];

or, in other words:

magnetT(ii,1) = T;
magnetT(ii,2) = sum(mlat(:)) ./ L2;