Kenneth B. Stolarsky scite author profile

We extend the Stern sequence, sometimes also called Stern's diatomic sequence, to polynomials with coefficients 0 and 1 and derive various properties, including a generating function. A simple iteration for quotients of consecutive terms of the Stern sequence, recently obtained by Moshe Newman, is extended to this polynomial sequence. Finally we establish connections with Stirling numbers and Chebyshev polynomials, extending some results of Carlitz. In the process we also obtain some new results and new proofs for the classical Stern sequence.

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Extremal Problems of Distance Geometry Related to Energy Integrals

Alexander¹,

Stolarsky²

1974

Transactions of the American Mathematical Society

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Let K be a compact set, % a prescribed family of (possibly signed) Borel measures of total mass one supported by K, and / a continuous real-valued function on Kx K. We study the problem of determining for which /x e% (if any) the energy integral 1(K, fi) = Siefi(ßx' y)df4.x)df/.y) is maximal, and what this maximum is. The more symmetry K has, the more we can say; our results are best when K is a sphere. In particular, when % is atomic we obtain good upper bounds for the sums of powers of all (?) distances determined by n points on the surface of a sphere. We make use of results from Schoenberg's theory of metric embedding, and of techniques devised by Polya and Szegö for the calculation of transfinite diameters.

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Sums of Distances Between Points on a Sphere

Stolarsky¹

1972

Proceedings of the American Mathematical Society

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Sums of distances between points on a sphere

Stolarsky¹

1972

Proc. Amer. Math. Soc.

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