Recall what a prime number is and what it isn't. First of all, this negates the regex match, so the regex matches on composite numbers.
It first creates a string of length n, its characters are irrelevant as long as they are matched by
That means the number is either
1 (which are not prime):
or it must have two divisors greater than one:
The first divisor is handled by the capturing group
(..+?) which will match at least two characters (i.e. represent a number greater than or equal to two). The
+? is a lazy quantifier so it will try to match as little as possible; this likely just speeds up the process.
\1 is a backreference matching the exact same thing the first group matched, this is repeated at least once using
+. This repetition represents the second factor of the number to check. So if the group matches a characters and the
\1+ repeats this b − 1 times you got yourself a representation of a ċ b. If this matches, n was a composite number and thus not prime.
Regexes do backtracking in trying to create a match, so if it doesn't work with
\1 containing two characters it will try with three, four, etc. until either a match is found or the group captures more than half the string.
So, e.g. for 14 the group would match two characters and
\1 would then be repeated seven times, mimicking the factors of the number to test. Since this matches it has factors other than itself and one and thus isn't prime.
5 on the other hand would try with two characters in the group, then three and giving up there (since
aaa cannot exist more than once in
aaaaa). Thus five is prime.
Here is a more thorough explanation, although once you figure it out mathematically it's blindingly obvious and trivial.