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 A098259 #30 Sep 08 2022 08:45:14
%S A098259 1,530,281429,149438269,79351439410,42135464888441,22373852504322761,
%T A098259 11880473544330497650,6308509078186989929389,
%U A098259 3349806440043747322007909,1778740911154151640996270290,944508074016414477621697516081
%N A098259 First differences of Chebyshev polynomials S(n,531)=A098257(n) with Diophantine property.
%C A098259 (23*b(n))^2 - 533*a(n)^2 = -4 with b(n)=A098258(n) give all positive solutions of this Pell equation.
%H A098259 G. C. Greubel, <a href="/A098259/b098259.txt">Table of n, a(n) for n = 0..365</a>
%H A098259 Tanya Khovanova, <a href="http://www.tanyakhovanova.com/RecursiveSequences/RecursiveSequences.html">Recursive Sequences</a>
%H A098259 Giovanni Lucca, <a href="http://forumgeom.fau.edu/FG2019volume19/FG201902index.html">Integer Sequences and Circle Chains Inside a Hyperbola</a>, Forum Geometricorum (2019) Vol. 19, 11-16.
%H A098259 <a href="/index/Ch#Cheby">Index entries for sequences related to Chebyshev polynomials.</a>
%H A098259 <a href="/index/Rec#order_02">Index entries for linear recurrences with constant coefficients</a>, signature (531,-1).
%F A098259 a(n) = ((-1)^n)*S(2*n, 23*i) with the imaginary unit i and the S(n, x) = U(n, x/2) Chebyshev polynomials.
%F A098259 G.f.: (1-x)/(1-531*x+x^2).
%F A098259 a(n) = S(n, 531) - S(n-1, 531) = T(2*n+1, sqrt(533)/2)/(sqrt(533)/2), with S(n, x) = U(n, x/2) Chebyshev's polynomials of the second kind, A049310. S(-1, x)= 0 = U(-1, x) and T(n, x) Chebyshev's polynomials of the first kind, A053120.
%F A098259 a(n) = 531*a(n-2) - a(n-2), n>1; a(0)=1, a(1)=530. - _Philippe Deléham_, Nov 18 2008
%e A098259 All positive solutions of Pell equation x^2 - 533*y^2 = -4 are (23=23*1,1), (12236=23*532,530), (6497293=23*282491,281429), (3450050347=23*150002189,149438269), ...
%t A098259 LinearRecurrence[{531,-1}, {1,530}, 20] (* _G. C. Greubel_, Aug 01 2019 *)
%o A098259 (PARI) my(x='x+O('x^20)); Vec((1-x)/(1-531*x+x^2)) \\ _G. C. Greubel_, Aug 01 2019
%o A098259 (Magma) I:=[1,530]; [n le 2 select I[n] else 531*Self(n-1) - Self(n-2): n in [1..20]]; // _G. C. Greubel_, Aug 01 2019
%o A098259 (Sage) ((1-x)/(1-531*x+x^2)).series(x, 20).coefficients(x, sparse=False) # _G. C. Greubel_, Aug 01 2019
%o A098259 (GAP) a:=[1,530];; for n in [3..20] do a[n]:=531*a[n-1]-a[n-2]; od; a; # _G. C. Greubel_, Aug 01 2019
%K A098259 nonn,easy
%O A098259 0,2
%A A098259 _Wolfdieter Lang_, Sep 10 2004