The C standard says the following regarding how arrays are used in expressions (taken from C99 188.8.131.52/3 "Lvalues, array, and function designators):
Except when it is the operand of the sizeof operator or the unary &
operator, or is a string literal used to initialize an array, an
expression that has type ‘‘array of type’’ is converted to an
expression with type ‘‘pointer to type’’ that points to the initial
element of the array object
This is commonly known as "arrays decay to pointers".
So the sub-expression
a in the following larger expressions evaluates to a pointer to int:
In the simpler expression,
j=a, that pointer is simply assigned to
In the more complex expression,
j=&a, the 'index' operator
 is applied to the pointer (which is an operation equivalent to
*(a + 0)) and the 'address-of' operator is applied to that, resulting in another pointer to int that gets assigned to
In the expression
j=&a, the address-of operator is applied directly to the array name, and we hit one of the exceptions in the above quoted clause: "Except when it is the operand of ... the unary & operator".
Now when we look at what the standard says about the unary & (address-of) operator (C99 184.108.40.206/3 "Address and indirection operators"):
The unary & operator returns the address of its operand. If the
operand has type "type", the result has type "pointer to type".
a has type "array of 5 int" (
int ), the result of applying
& to it directly has type "pointer to array of 5 int" (
int (*)), which is not assignable to