This is a front-end for the Online Encyclopedia of Integer Sequences, made by Christian Perfect. The idea is to provide OEIS entries in non-ancient HTML, and then to think about how they're presented visually. The source code is on GitHub.
%I A336507 #10 Aug 04 2020 03:56:19
%S A336507 45,135,225,405,675,765,855,1035,1125,1215,1275,1305,1395,1665,1845,
%T A336507 1935,2025,2115,2295,2565,3105,3375,3645,3825,3915,4185,4275,4995,
%U A336507 5175,5535,5625,5805,6075,6345,6375,6525,6885,6975,7155,7695,7965,8235,8325,9045,9225
%N A336507 Lambda-practical numbers (A336506) that are not phi-practical (A260653).
%C A336507 Thompson (2012) proved that all phi-practical numbers are lambda-practical, that all the terms of this sequence are not squarefree numbers, and that this sequence is infinite: for example, 45 * Product_{i=10..k} prime(i) is a term for all k >= 10.
%H A336507 Amiram Eldar, <a href="/A336507/b336507.txt">Table of n, a(n) for n = 1..300</a>
%H A336507 Lola Thompson, <a href="http://www.lolathompson.com/uploads/1/1/0/6/110629329/thesis.pdf">Products of distinct cyclotomic polynomials</a>, Ph.D. thesis, Dartmouth College, 2012.
%H A336507 Lola Thompson, <a href="https://doi.org/10.5802/jtnb.866">Variations on a question concerning the degrees of divisors of x^n - 1</a>, Journal de Théorie des Nombres de Bordeaux, Vol. 26, No. 1 (2014), pp. 253-267.
%t A336507 phiPracticalQ[n_] := If[n<1, False, If[n==1, True, (lst = Sort @ EulerPhi @ Divisors[n]; ok=True; Do[If[lst[[m]]>Sum[lst[[l]], {l, 1, m-1}]+1, (ok=False; Break[])], {m, 1, Length[lst]}]; ok)]]; rep[v_, c_] := Flatten @ Table[ConstantArray[v[[i]], {c[[i]]}], {i, Length[c]}]; lambdaPracticalQ[n_] := Module[{d = Divisors[n], lam, ns, r, x}, lam = CarmichaelLambda[d]; ns = EulerPhi[d]/lam; r = rep[lam, ns]; Min @ Rest @ CoefficientList[Series[Product[1 + x^r[[i]], {i, Length[r]}], {x, 0, n}], x] > 0]; Select[Range[1000], !phiPracticalQ[#] && lambdaPracticalQ[#] &] (* after Frank M Jackson at A260653 *)
%Y A336507 Subsequence of A013929.
%Y A336507 Complement of A260653 with respect to A336506.
%K A336507 nonn
%O A336507 1,1
%A A336507 _Amiram Eldar_, Jul 23 2020