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==Other results==
Ford also proved that if there exists a counterexample to the Conjecture, then a positive
Although the conjecture is widely believed, [[Carl Pomerance]] gave a sufficient condition for an integer ''n'' to be a counterexample to the conjecture {{harv|Pomerance|1974}}. According to this condition, ''n'' is a counterexample if for every prime ''p'' such that ''p'' − 1 divides ''φ''(''n''), ''p''<sup>2</sup> divides ''n''. However Pomerance showed that the existence of such an integer is highly improbable. Essentially, one can show that if the first ''k'' primes ''p'' congruent to 1 (mod ''q'') (where ''q'' is a prime) are all less than ''q''<sup>''k''+1</sup>, then such an integer will be divisible by every prime and thus cannot exist. In any case, proving that Pomerance's counterexample does not exist is far from proving Carmichael's Conjecture. However if it exists then infinitely many counterexamples exist as asserted by Ford.
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