Wednesday, April 15, 2026
Thursday, April 02, 2026
A random 5000-digit emirp pair
Print[DateString[]];
c=0;While[c++;
PrimeQ[IntegerReverse[r=RandomPrime[{10^4999,2*10^4999}]]]==False];
Print[{DateString[], c}]; r
Tue 24 Mar 2026 13:20:15
{Thu 2 Apr 2026 14:16:15, 1459}
IntegerReverse[r]
Click on either number to check its primality.
Monday, March 23, 2026
A random 2000-digit emirp pair
Print[DateString[]];
c=0; While[c++; PrimeQ[IntegerReverse[r=RandomPrime[{10^1999,2*10^1999}]]]==False];
Print[{DateString[], c}]; r
Mon 23 Mar 2026 16:19:04
{Mon 23 Mar 2026 18:37:09, 305}
IntegerReverse[r]
Click on either number to check its primality.
Saturday, March 21, 2026
A random large emirp pair
One might think from my previous post that large base-ten emirps congregate near — or at least involve — powers of ten. Well, record ones certainly do but that is surely an artifact of the convenience of searching for such integers in those locations, expressing them without having to show all of their digits, and even proving their primality.
I recently found that Mathematica has a RandomPrime function which can be configured to generate primes with a specific number of digits. By repeated application of it and checking each against the primality (most often lack-of-primality) of the integer created by reversing its decimal digits, I can now create random emirps.
While[PrimeQ[IntegerReverse[r = RandomPrime[{10^999, 10^1000}]]] == False]; r
The reverse of this is:
I did not think that I would be able to prove their primality, but factordb (click on either number to see its evaluation there) apparently has some "elves" who download the smallest probable primes in the database and run deterministic tests on them. I guess I got lucky.
Monday, March 16, 2026
Some recent large emirps
Let it be understood that all emirps come in pairs, say (p, q) where the number of (decimal) integer digits of p and of q are identical, but p < q. Since, in the following, we are dealing with record large integers, I will explicitly state the value of q, the larger of the pair, followed by a linked p in square brackets.
Two days after the video, gamer Gelly Gelbertson found 10^10056+10^6692+10^5872+1 [p] (a 10057-digit term in OEIS A393530). Another two days and Vishwath Ganesan discovered 10^20000+518406362*10^9996+1 [p] (a 20001-digit emirp). As Vish's record was not initially noted beyond his PrimeGrid Discord chat, it created, unfortunately, a large number of claims of record that were (being fewer than 20001 digits and coming after February 20) not actually records. That included a 10069-digit (still not proven) random emirp made possible by AI.
Updates
March 19: Serge Batalov captured a near-repunit 10^22822-10^63-1 [p] emirp.
March 26: Justin Auger posted 10^39988+5417497422*10^19990+1 [p].
March 27: Serge Batalov posted 10^47253-22*10^21607-1 [p].
April 6: Ryan Propper & Serge Batalov claim 10^77763-4*10^25683-1 [p].
Email me if you spot any errors or have something to add.
Friday, March 13, 2026
Tuesday, March 10, 2026
Monday, March 09, 2026
Saturday, March 07, 2026
Saturday, February 28, 2026
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