Square Numbers which are Sum of Sequence of Odd Cubes

Theorem
The sequence of square numbers which can be expressed as the sum of a sequence of odd cubes from $1$ begins:


 * $1, 1225, 1 \, 413 \, 721, 1 \, 631 \, 432 \, 881, \dotsc$

The sequence of square roots of this sequence is:
 * $1, 35, 1189, 40 \, 391, \dotsc$

Proof
We have that:

From Sum of Sequence of Odd Cubes we have:


 * $\ds \sum_{j \mathop = 1}^n \paren {2 j - 1}^3 = 1^3 + 3^3 + 5^3 + \dotsb + \paren {2 n − 1}^3 = n^2 \paren {2 n^2 − 1}$

Thus we need to find all $n$ such that $2 n^2 − 1$ is square.