A note on mh(Ak)

Abstract

Ak = 1, a2, ..., ak is an h-basis for n if every positive integer not exceeding n can be expressed as the sum of no more than h values ai; we write n = nh(Ak). An extremal h-basis Ak is one for which n is as large as possible, and then we write n = nh(k). The "local" Postage Stamp Problem is concerned with properties of particular sets Ak, and it is clear that sets where nh(Ak) does not exceed ak are of little interest. We define h0(k) to be the smallest value of h for which nh(Ak) exceeds ak; such sets are called "admissible". We say that a value n can be "generated" by Ak if it can be expressed as the sum of no more than h values ai, or - equivalently - if it can be expressed as the sum of exactly h values ai from the set A'k = 0, a1, a2, ... ak. No values greater than hak can be generated, and we now consider the number of values less than hak that have no generation, denoted mh(Ak) - essentially a count of the number of "gaps" (see Challis [1], and Selmer [5] page 3.1). It is easy to show that for some value h2(k) exceeding h0(k) the difference mh(Ak) - m(h+1)(Ak) remains constant - that is, the "pattern" of missing values between hak and (h+1)ak does not change as h increases. Here we are interested in the pattern of missing values for values that lie between h0 and h2. On page 7.8 of Selmer [5] he conjectures that the sequence of differences mh(Ak) - m(h+1)(Ak) is non-increasing as h runs from h0 to h2. When I came across this conjecture I could not convince myself that it was likely to be true, having found a possible error in Selmer's justification. I wrote to him in November 1995, and early in 1996 he replied, agreeing that this might be the case and hoping that I might be able to find a counter example. This paper records my successful search for a counter example, eventually found late in 1999.