First of all you need to specify exactly which matrix operations you need to perform. The reason is that some of the libraries are very good at a few special operations. As an example Arpack is good at finding the largest few eigenvalues of a large sparse matrix. (See my questions above)
But in general NumPy/SciPy is a good choice. It wraps several libraries such as lapack, arpack, and superLU and it gives you a nice python interface to work with.
Alternatively you can use octave or MATLAB or use c++ to wrap a library that is specialized in the operations that you need to perform.
Jama was build for dense matrices, and you want to work with sparse matrices, so Jama is a bad choice for you. http://math.nist.gov/javanumerics/jama/
I am not an expert on all this, but as far as I know you need to find a library that uses Lanczos algorithm (http://en.wikipedia.org/wiki/Lanczos_algorithm )
The Arpack library uses this algorithm, so Arpack is a good choice. The python library scipy.sparse.linalg wraps Arpack, so scipy is also a good choice.
For the record Lapack was also created for dense matrices, so Lapack is a bad choice unless your matrices are so small that speed doesn't matter. I believe that eispack is been outdated for years.