Without going into the specifics of a specific implementation here, the intuitive reason behind the crash can be explained simply by considering what
delete is supposed to do:
Destroys an array created by a
delete a pointer to an array. Among other things, it has to free the memory it allocated to hold the contents of that array after.
How is the allocator know what to free? It uses the pointer you gave it as a key to look up the data structure which contains the bookkeeping information for the allocated block. Somewhere, there is a structure which stores the mapping between pointers to previously allocated blocks and the associated bookkeeping operation.
You may wish this lookup to result in some kind of friendly error message if the pointer you pass to
delete  was not one returned by a corresponding
new, but there is nothing in the standard that guarantees that.
So, it is possible, given a pointer which had not been previously allocated by
delete ends up looking at something that really is not a consistent bookkeeping structure. Wires get crossed. A crash ensues.
Or, you might wish that
delete would say "hey, it looks like this pointer points to somewhere inside a region I allocated before. Let me go back and find the pointer I returned when I allocated that region and use that to look up the bookkeeping information" but, again, there is no such requirement in the standard:
For the second (array) form, expression must be a null pointer value or a pointer value previously obtained by an array form of new-expression. If expression is anything else, including if it's a pointer obtained by the non-array form of new-expression, the behavior is undefined. [emphasis mine]
In this case, you are lucky because you found out you did something wrong instantaneously.
PS: This is a hand-wavy explanation