Depending on your deployment architecture it can become very difficult to implement a singleton in Java. When you're talking about singletons you also have to talk about their scope/context. Because few people understand this singletons have often been called evil and are considered anti-patterns.
If you're deploying to a single jvm, outside an application server, then the idiomatic approach is to implement a private final static instance of the class within itself and expose this through a suitably named method (getInstance() is common), and make the constructor of the class private. This is a singleton constrained to a single classloader and a single jvm.
However, this situation is incredibly uncommon.
In all other situations, you have to consider the classloader problem and the problem of having your code deployed to multiple jvms/servers. In a typical Java EE application container each war is usually loaded using its own classloader. If each war relies on a jar containing a singleton, they will each get their own copy of that singleton. This could be ok, if the singleton is for, say, a DB connection and you're allowed lots of them. But, if the singleton is supposed to protect access to a limited resource, then this isn't going to work well because you'll have one class capable of accessing that resource per webapp. The scope of your singleton here is container-scope.
It gets worse in full enterprise deployments, with clusters and live failover. In this environment you have many copies of your software running simultaneously. It's hard to imagine a java only singleton working at this scope -- the enterprise scope. At this level you need to figure out what the single source of truth is for singleton creation, or execution (if it's ok to have multiple instances but only one of them can be processing requests at a time), and all the singletons you create of the same type must defer to the single source of truth -- an enterprise semaphore.