At bytecode level, java has
monitorexit operations, documented in this page of The Java Virtual Machine Specification, with snippets pasted below (objectref is operand for the operation, taken from stack):
Each object has a monitor associated with it. The thread that executes
monitorenter gains ownership of the monitor associated with objectref. If another thread already owns the monitor associated with objectref, the current thread waits until the object is
unlocked, then tries again to gain ownership. If the current thread
already owns the monitor associated with objectref, it increments a
counter in the monitor indicating the number of times this thread has
entered the monitor. If the monitor associated with objectref is not
owned by any thread, the current thread becomes the owner of the
monitor, setting the entry count of this monitor to 1.
The current thread should be the owner of the monitor associated with
the instance referenced by objectref. The thread decrements the
counter indicating the number of times it has entered this monitor. If
as a result the value of the counter becomes zero, the current thread
releases the monitor. If the monitor associated with objectref
becomes free, other threads that are waiting to acquire that monitor
are allowed to attempt to do so.
So, "monitor" is the answer, and neither this, nor JLS referenced in NPE's answer specify what happens at native code level. If you have a specific platform (CPU and operating system) and a specfic JVM implementation (including version) in mind, you can of course either look at the JVM source (if it is an open source JVM), or ask here.
I also happened across this blog from 1997, which has more details.