If you have the sizes of each of the subtrees, this can be doable without having to read the data into an array (or otherwise traversing the tree) and counting up. If you don't keep the size information handy, you'll need a helper function to calculate the size.

The basic idea, figure out what is the index of the current node. If it is less than k, you need to search the left subtree. If it is greater than k, search the right offsetting the nodes counted from the left and current. Note that this is essentially the same as searching through a regular BST, except this time we are searching by index, not data. Some pseudocode:

```
if size of left subtree is equal to k:
// the current node is kth
return data of current node
else if size of left subtree is greater than k:
// the kth node is on the left
repeat on the left subtree
else if size of left subtree is less than k:
// the kth node is on the right
reduce k by the size of the left subtree + 1 // need to find the (k')th node on the right subtree
repeat on the right subtree
```

To illustrate, consider this tree with the marked indices (don't even worry about the data as it's not important in the search):

```
3
/ \
2 6
/ / \
0 4 7
\ \
1 5
```

Suppose we want to find the 2nd (k = 2).

Starting at 3, the size of the left subtree is 3.

It is greater than k so move to the left subtree.

The size of the left subtree is 2.

k is also 2 so the current node must be the 2nd.

Suppose we want to find the 4th (k = 4).

Starting at 3, the size of the left subtree is 3.

It is less than l so adjust the new k to be 0 (k' = 4 - (3 + 1)) and move to the right subtree.

Starting at 6, the size of the left subtree is 2.

It is greater than k' (0) so move to the left subtree.

The size of the left subtree is 0.

k' is also 0 so the current node must be the 4th.

You get the idea.