Short answer: Depends on the OS, though it's definitely a NO in all popular operating systems.
I'll take the example of Linux's memory allocation terminology here.
-Xms and -Xmx specify the minimum and maximum size of JVM heap. These sizes reflect VIRTUAL MEMORY allocations which can be physical mapped to pages in RAM called the RESIDENT SIZE of the process at any time.
When the JVM starts, it'll allocate -Xms amount of virtual memory. This can be mapped to resident memory (physical memory) once you dynamically create more objects on heap. This operation will not require JVM requesting any new allocation from the OS, but will increase you RAM utilization, because those virtual pages will now actually have corresponding physical memory allocation too. However, once your process tries to create more objects on heap after consuming all its Xms allocation on RAM, it has to request the OS for more virtual memory from the OS, which may/may not also be mapped to physical memory later depending on when you need it. The limit for this is your -Xmx allocation.
Note that this is all possible because the memory in linux is shared. So, even if a process allocates memory beforehand, what it gets is virtual memory which is just an addressable contiguous fictional allocation that may or may not be mapped to real physical pages depending on the demand. Read this answer for a short description of how memory management works in popular operating systems. Here is a much detailed (slightly outdated but very useful) information on how Linux's memory management works.
Also note that, these flags only affect heap sizes. The resident memory size that you will see will be larger than the current JVM heap size. More specifically, the memory consumed by a JVM is equals to its HEAP SIZE plus DIRECT MEMORY which reflects things coming from method stacks, native buffer allocations etc.