Let me apologize in advance, because this is a little tough to understand...
First of all, you already know that
java.util.Random is not completely random at all. It generates sequences in a perfectly predictable way from the seed. You are completely correct that, since the seed is only 64 bits long, it can only generate 2^64 different sequences. If you were to somehow generate 64 real random bits and use them to select a seed, you could not use that seed to randomly choose between all of the 52! possible sequences with equal probability.
However, this fact is of no consequence as long as you're not actually going to generate more than 2^64 sequences, as long as there is nothing 'special' or 'noticeably special' about the 2^64 sequences that it can generate.
Lets say you had a much better PRNG that used 1000-bit seeds. Imagine you had two ways to initialize it -- one way would initialize it using the whole seed, and one way would hash the seed down to 64 bits before initializing it.
If you didn't know which initializer was which, could you write any kind of test to distinguish them? Unless you were (un)lucky enough to end up initializing the bad one with the same 64 bits twice, then the answer is no. You could not distinguish between the two initializers without some detailed knowledge of some weakness in the specific PRNG implementation.
Alternatively, imagine that the
Random class had an array of 2^64 sequences that were selected completely and random at some time in the distant past, and that the seed was just an index into this array.
So the fact that
Random uses only 64 bits for its seed is actually not necessarily a problem statistically, as long as there is no significant chance that you will use the same seed twice.
Of course, for cryptographic purposes, a 64 bit seed is just not enough, because getting a system to use the same seed twice is computationally feasible.
I should add that, even though all of the above is correct, that the actual implementation of
java.util.Random is not awesome. If you are writing a card game, maybe use the
MessageDigest API to generate the SHA-256 hash of
"MyGameName"+System.currentTimeMillis(), and use those bits to shuffle the deck. By the above argument, as long as your users are not really gambling, you don't have to worry that
currentTimeMillis returns a long. If your users are really gambling, then use
SecureRandom with no seed.