Lets look at a simpler example:

```
A = [1,2,3,4,5]*10;
```

Now I'm sure you'll agree that `A(1) = 10`

, `A(2) = 20`

etc but we can also address a matrix using a vector of indices e.g. `A([1,3])`

returns `[10,30]`

but you can also repeat indices and it will just address the same element twice: `A([1,1])`

returns `[10,10]`

.

Now lets add a dimension:

```
A = [1,2,3;
4,5,6;
7,8,9]*10;
```

So `A(1,:)`

returns `[10,20,30]`

. But what about A([1,1], :)? That's going to return the first row twice! So `[10,20,30;10,20,30]`

But what about the thrid dimension? `A`

is a 3x3 2D matrix right? yes, but it's also a 3x3x1 3D matrix. So `A == A(:,:,1)`

, which means that by the same logic as above `A(:,:,[1,1])`

will just return that third dimension twice and hence is the same as `repmat(A, [1,1,2])`

.