论文信息 - A Singular Function and its Relation with the Number Systems Involved in its Definition

A Singular Function and its Relation with the Number Systems Involved in its Definition

Minkowski's ?(x) function can be seen as the confrontation of two number systems: regular continued fractions and the alternated dyadic system. This way of looking at it permits us to prove that its derivative, as it also happens for many other non-decreasing singular functions from [0,1] to [0,1], when it exists can only attain two values: zero and infinity. It is also proved that if the average of the partial quotients in the continued fraction expansion of x is greater than k* =5.31972, and ?'(x) exists then ?'(x)=0. In the same way, if the same average is less than k**=2 log2(F), where F is the golden ratio, then ?'(x)=infinity. Finally some results are presented concerning metric properties of continued fraction and alternated dyadic expansions.

Jaume Paradís | Pelegrí Viader | Lluís Bibiloni

[1] J. Brown. What is Applied Mathematics? , 1997 .

[2] R. Salem. On some singular monotonic functions which are strictly increasing , 1943 .

[3] R. Tichy,et al. An extension of Minkowski's singular function , 1995 .

[4] Jaume Paradís,et al. A new light on Minkowski's? $(x)$ function , 1998 .

[5] J. Kinney. Note on a singular function of Minkowski , 1960 .