I like AndrewC's answer, but I'd do it in one go, nesting the list comprehensions and just testing equality for positions, rather than separate rows and columns.
f :: Pos -> Pos -> Matrix
f (h, w) p = [ [if (y, x) == p then 1 else 0 | x <- [1..w]]
| y <- [1..h]]
I've chosen my alignment mnemonically so that
x stretches horizontally and
y stretches vertically, with the heart of the thing being the expression that defines a typical element in terms of its coordinates. The comparison on columns won't happen if the rows are different. I suppose one could use
replicate w 0 to compute the all-zero rows slightly more efficiently, at a cost of clarity.
I'd also consider writing
g :: Pos -> Pos -> Matrix
g (h, w) (y, x) = replicate (y-1) wzeros
++ (replicate (x-1) 0 ++ 1 : replicate (w-x) 0)
: replicate (h-y) wzeros
where wzeros = replicate w 0
which is longer, but even more spatially immediate. It preserves more sharing and perhaps does a little less subtraction. But its behaviour is a bit weirder if the position is outside the relevant range.