The HotSpot JVM does release memory back to the OS, but does so reluctantly since resizing the heap is expensive and it is assumed that if you needed that heap once you'll need it again.
You can make it more aggressive by setting
-XX:GCTimeRatio=19 -XX:MinHeapFreeRatio=20 -XX:MaxHeapFreeRatio=30 which will allow it to spend more CPU time on collecting and constrain the amount of allocated-but-unused heap memory after a GC cycle.
Assuming you're using a concurrent collector you can also set
-XX:InitiatingHeapOccupancyPercent=N with N to some low value to let the GC run concurrent collections almost continuously, which will consume even more CPU cycles but shrink the heap sooner. This generally is not a good idea, but on some types of machines with lots of spare CPU cores but short on memory it can make sense.
If you're using a collector with a default pause time goal (CMS or G1) you can also relax that goal to place fewer constraints on the collector, or you can switch go the parallel collector to prioritize footprint over pause times.
Additionally with Java 9
-XX:-ShrinkHeapInSteps option can be be used to apply the shrinking caused by the previous two options more aggressively. Relevant OpenJDK bug.
Do note that shrinking ability and behavior depends on the chosen garbage collector. For example G1 only gained the ability to yield back unused chunks in the middle of the heap with jdk8u20, while ZGC did with jdk13 and the epsilon collector most likely never will.
So if heap shrinking is desired it should be tested for a particular JVM version and GC configuration.
GC Logging with
PrintAdaptiveSizePolicy may also provide insight, e.g. when the JVM tries to use more memory for the young generation to meet some goals.
There also is JEP 346, included in OpenJDK 12, which introduces prompt memory release for G1GC with the
G1PeriodicGCInterval option, again at the expense of some additional CPU. It also mentions similar features in Shenandoah and the OpenJ9 VM.