If you want it in simple terms, the regex engine ain't no wuss - if at first it doesn't succeed, it will jump right back up and try over and over again, every possible combination, until it finds a match.
I'll take a pattern inspired by the first example you gave and spell it out for you:
Given the input:
The regex engine tries something like
(ababab) and a match is found on the first try. Yay! But then we throw the monkey wrench in:
The regex engine tries
(ababab) but that fails because of that extra
a. But don't fear, our intrepid regex engine tries again, this time with something like
(abab)(ab). But that didn't work either. "OK," it says to itself, "time to buckle down and solve this."
(ababab) - Nope
(abab)(ab) - Nope
(ab)(abab) - Nope
(ab)(ab)(ab) - Nope
()(ababab) - Nope
()(abab)(ab) - Nope
()(ab)(abab) - Nope
()(ab)(ab)(ab) - Nope
Before you know it, the regex engine is eating up all your system resources trying to solve this thing until, having exhausted every possible combination of terms, it finally gives up and turns back to you saying "This is not a match." Looking back behind the regex engine you can see your server, a burning pile of molten metal.
As to identifying these regular expressions, it can actually be very tricky. I have written a couple myself, even though I know what they are and generally how to avoid them. See Regex taking surprisingly long time. Wrapping everything you can in an atomic group can help to prevent the backtracking issue. It basically tells the regex engine not to try multiple combinations - "if at first you don't succeed, RUN AWAY!".
Unfortunately, once it's written, it's actually very hard to immediately or quickly find a problem regex. In the end, recognizing a bad regex is like recognizing any other bad code - it takes a lot of time and experience and/or a single catastrophic event.
(NOTE: The above "matches" are illustrative only. The actual order of the matches would depend somewhat on the regex engine, but you get the gist.)