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Numerators of upper primes-only best approximates (POBAs) to sqrt(8); see Comments.
7

%I #10 Apr 06 2019 10:53:50

%S 7,17,23,37,167,563,727,1123,1321,1847,2803,4517,46027,79657,85229,

%T 103099,182657,199373

%N Numerators of upper primes-only best approximates (POBAs) to sqrt(8); see Comments.

%C Suppose that x > 0. A fraction p/q of primes is an upper primes-only best approximate, and we write "p/q is in U(x)", if p'/q < x < p/q < u/v for all primes u and v such that v < q, where p' is greatest prime < p in case p >= 3.

%C Let q(1) = 2 and let p(1) be the least prime >= x. The sequence U(x) follows inductively: for n >= 1, let q(n) is the least prime q such that x < p/q < p(n)/q(n) for some prime p. Let q(n+1) = q and let p(n+1) be the least prime p such that x < p/q < p(n)/q(n).

%C For a guide to POBAs, lower POBAs, and upper POBAs, see A265759.

%e The upper POBAs to sqrt(8) start with 7/2, 17/5, 23/7, 37/13, 167/59, 563/199, 727/257, 1123/397. For example, if p and q are primes and q > 13, and p/q > sqrt(8), then 37/13 is closer to sqrt(8) than p/q is.

%t x = Sqrt[8]; z = 1000; p[k_] := p[k] = Prime[k];

%t t = Table[Max[Table[NextPrime[x*p[k], -1]/p[k], {k, 1, n}]], {n, 1, z}];

%t d = DeleteDuplicates[t]; tL = Select[d, # > 0 &] (* lower POBA *)

%t t = Table[Min[Table[NextPrime[x*p[k]]/p[k], {k, 1, n}]], {n, 1, z}];

%t d = DeleteDuplicates[t]; tU = Select[d, # > 0 &] (* upper POBA *)

%t v = Sort[Union[tL, tU], Abs[#1 - x] > Abs[#2 - x] &];

%t b = Denominator[v]; s = Select[Range[Length[b]], b[[#]] == Min[Drop[b, # - 1]] &];

%t y = Table[v[[s[[n]]]], {n, 1, Length[s]}] (* POBA, A265794/A265795 *)

%t Numerator[tL] (* A265790 *)

%t Denominator[tL] (* A265791 *)

%t Numerator[tU] (* A265792 *)

%t Denominator[tU] (* A265793 *)

%t Numerator[y] (* A265794 *)

%t Denominator[y] (* A265795 *)

%Y Cf. A000040, A265759, A265790, A265791, A265793, A265794, A265795.

%K nonn,frac,more

%O 1,1

%A _Clark Kimberling_, Dec 29 2015

%E a(13)-a(18) from _Robert Price_, Apr 06 2019