DECAY RATE OF FOURIER TRANSFORMS OF SOME SELF-SIMILAR MEASURES

doi:10.1016/S0252-9602(17)30094-2

数学物理学报(英文版) ›› 2017, Vol. 37 ›› Issue (6): 1607-1618.doi: 10.1016/S0252-9602(17)30094-2

DECAY RATE OF FOURIER TRANSFORMS OF SOME SELF-SIMILAR MEASURES

高翔, 马际华

School of Mathematics and Statistics, Wuhan University, Wuhan 430072, China

收稿日期:2017-03-14 出版日期:2017-12-25 发布日期:2017-12-25
通讯作者: Xiang GAO E-mail:gaojiaou@gmail.com
作者简介:Jihua MA,jhma@whu.edu.cn
基金资助:
Ma's work was supported by NSFC (11271148).

DECAY RATE OF FOURIER TRANSFORMS OF SOME SELF-SIMILAR MEASURES

Xiang GAO, Jihua MA

School of Mathematics and Statistics, Wuhan University, Wuhan 430072, China

Received:2017-03-14 Online:2017-12-25 Published:2017-12-25
Contact: Xiang GAO E-mail:gaojiaou@gmail.com
Supported by:
Ma's work was supported by NSFC (11271148).

摘要/Abstract

摘要：

This paper is concerned with the Diophantine properties of the sequence {ξθⁿ}, where 1 ≤ ξ < θ and θ is a rational or an algebraic integer. We establish a combinatorial proposition which can be used to study such two cases in the same manner. It is shown that the decay rate of the Fourier transforms of self-similar measures μ_λ with λ=θ^-1 as the uniform contractive ratio is logarithmic. This generalizes some results of Kershner and Bufetov-Solomyak, who consider the case of Bernoulli convolutions. As an application, we prove that μ_λ almost every x is normal to any base b ≥ 2, which implies that there exist infinitely many absolute normal numbers on the corresponding self-similar set. This can be seen as a complementary result of the well-known Cassels-Schmidt theorem.

Abstract:

Key words: self-similar measures, Fourier transforms, decay rate, normal numbers

高翔, 马际华. DECAY RATE OF FOURIER TRANSFORMS OF SOME SELF-SIMILAR MEASURES[J]. 数学物理学报(英文版), 2017, 37(6): 1607-1618.

Xiang GAO, Jihua MA. DECAY RATE OF FOURIER TRANSFORMS OF SOME SELF-SIMILAR MEASURES[J]. Acta mathematica scientia,Series B, 2017, 37(6): 1607-1618.

参考文献

[1] Weyl H. Über die Gleichverteilung von Zahlen modulo. Eins Math Ann, 1916, 77(3):313-352[2] Vijayaraghavan T. On the fractional parts of the powers of a number, I. J London Math Soc, 1940, 15:159-160[3] Pisot C. La répartition modulo 1 et les nombres algebriques. Ann Scuola Norm Super Pisa, CI Sci, 1938, 2:205-248[4] Tijdeman R. Note on Mahler's 3/2-problem. K Norske Vidensk Selsk Skr, Trondheim, 1972, 16:1-4[5] Choquet G. θ-fermés et dimension de Hausdorff. Conjectures de travail. Arithmétique des θ-cycles (θ=3/2). C R Acad Sci Paris Sér I, 1981, 292:339-344[6] Flatto L, Lagarias J C, Pollington A. On the range of fractional parts ξ(p/q)ⁿ. Acta Arith, 1995, 70:125-147[7] Bugeaud Y. Linear mod one transformations and the distribution of fractional parts ξ(p/q)ⁿ. Acta Arith, 2004, 114:301-311[8] Dubickas A. Arithmetical properties of powers of algebraic numbers. Bull London Math Soc, 2006, 38:70-80[9] Peres Y, Schlag W, Solomyak B. Sixty years of Bernoulli convolutions//In Fractal geometry and Stochastics, Ⅱ, Greifswald/Koserow, 1998, 46 Progr Probab, Basel:Birkhäuser, 2000:39-65[10] Kershner R. On singular Fourier-Stieltjes transforms. Amer J Math, 1936, 58(2):450-452[11] Erdős P. On the smoothness properties of a family of Bernoulli convolution. Amer J Math, 1940, 62:180-186[12] Kahane J P. Sur la distribution de certaines séries aléatoires, Colloque de Théorie des Nombres, Univ Bordeaux, 1969. Mém Soc Math France, 1971, 25:119-122[13] Bufetov A, Solomyak B. On the modulus of continuity for spectral measures in substitution dynamics. Adv Math, 2014, 260:84-129[14] Dai X R, Feng D J, Wang Y. Refinable functions with non-integer dilations. J Funct Anal, 2007, 250:1-20[15] Watanabe T. Asymptotic properties of Fourier transforms of b-decomposable distributions. J Fourier Anal Appl, 2012, 18(4):803-827[16] Bugeaud Y. Nombres de Liouville et nombres normaux. CR Acad Sci Paris, Ser I, 2002, 335:117-120[17] Queffélec M, Ramaré O. Analyse de Fourier des fractions continues `a quotients restreints. Enseign Math (2), 2003, 49(3/4):335-356[18] Kuipers L, Niederreiter H. Uniform Distribution of Sequences. Pure Appl Math New York, London, Sydney:Wiley-Interscience. John Wiley Sons, 1974[19] Davenport H, Erdős P, Leveque W J. On Weyl's criterion for uniform distribution. Michigan Math J, 1963, 10:311-314[20] Lyons R. The measure of non-normal sets. Invent Math, 1986, 83:605-616[21] Cassels J W S. On a problem of Steinhaus about normal numbers. Colloq Math, 1959, 7:95-101[22] Schmidt W M. On normal numbers. Pacific J Math, 1960, 10:661-672[23] Hochman M, Shmerkin P. Equidistribution from fractals. Invent Math, 2015, 202(1):427-479[24] Garsia A. Arithmetic properties of Bernoulli convolution. Trans Amer Math Soc, 1962, 102:409-432

DECAY RATE OF FOURIER TRANSFORMS OF SOME SELF-SIMILAR MEASURES

DECAY RATE OF FOURIER TRANSFORMS OF SOME SELF-SIMILAR MEASURES

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