There's a challenge - someone prove Trev's Theorem - a la Fermat's Last Theorem which remained unproven for years - and I couldn't follow the eventual proof anyway ;-)

Fascinating. I continued the pattern for a bit
1024-4096: 392 primes
4096-16384: 1336 primes

For the sake of accuracy if this is for work you are submitting, 4 to the power 0 is of course 1 not 0, but that doesn't change the results.

Sadly in my sleep I found myself working out differences between squares, and considering how primes tending to come in pairs, and formulated an idea- but I woke up with a headache and couldn't recall all the details.

The reason is simple.
God decided to give you something to ponder about.

According to the following, it doesn't hold for higher powers:

https://oeis.org/A117757

After 1336, the numbers are:

4642, 16458, 59025 (NOT EVEN), 213922, 781924, 2879938 ....... a few more odd ones later on as well ....

Thanks for the BA, but I will admit it wasn't my own work .... although I don't mind basking in the glory lol :)

If you like freaky maths, read up on Heegner Numbers.

https://en.wikipedia.org/wiki/Heegner_number

There is also the Goldbach conjecture which seems simple on the face of it but hasn't been proven as far as I know. This says that every even number above 2 is the sum of two prime numbers