@Dave and Casey, you don't need any proof to show that contiguous memory layout improves Cache efficiency, which is the major bottleneck in most OOP apps that need high performance but follow a "too idealistic" OOP-design trajectory.
People often think of the GC as the culprit causing low performance in high performance Java applications and after fixing it, just leave it at that, without actually profiling memory-behavior of the application. Note though that un-cached memory instructions are inherently more expensive than arithmetic instructions (and are getting more and more expensive due to the memory access <-> computation gap). So if you care about performance, you should certainly care about memory management.
Cache-aware, or more general, data-oriented programming, is the key to achieving high performance in many kinds of applications, such as games, or mobile apps (to reduce power consumption).
Here is a SO thread on DOP.
Here is a slideshow from the Sony R&D department that shows the usefulness of DOP as applied to a playstation game (high performance required).
So how to solve the problem that Java, does not, in general allow you to allocate a chunk of memory? My guess is that when the program is just starting, you can assume that there is very little internal fragmentation in the already allocated pages. If you now have a loop that allocates thousands or millions of objects, they will probably all be as contiguous as possible. Note that you only need to make sure that consecutive objects stretch out over the same cacheline, which in many modern systems, is only 64 bytes. Also, take a look at the DOP slides, if you really care about the (memory-) performance of your application.
In short: Always allocate multiple objects at once (increase temporal locality of allocation), and, if your GC has defragmentation, run it beforehand, else try to reduce such allocations to the beginning of your program.
I hope, this is of some help,
PS: @Dave, the commons pool library does not allocate objects contiguously. It only keeps track of the allocations by putting them into a reference array, embedded in a stack, linked list, or similar.