Dirichlet series for an analytic almost-periodic function
A series of the type
 | (*) |
representing in the strip 
, 
, the complete Fourier series of the analytic, regular almost-periodic function 
, defined on the union of straight lines 
(cf. Almost-periodic analytic function).
To two different almost-periodic functions in the same strip correspond two different Dirichlet series. In the case of a 
-periodic function the series (*) becomes a Laurent series. The numbers 
and 
are known, respectively, as the Dirichlet coefficients and exponents. Unlike for classical Dirichlet series, the set of real exponents 
in (*) may have finite limit points and may even be everywhere dense. If all Dirichlet exponents have the same sign, for example, if 
is an almost-periodic function in a strip 
and if in (*) 
, then 
is an almost-periodic function in the strip 
, and 
uniformly with respect to 
. A similar theorem is valid for positive Dirichlet exponents [2]. If 
is an almost-periodic function in a strip 
and if the indefinite integral of 
in the strip 
is bounded, then the series
 |
are the Dirichlet series of two functions 
and 
which are almost-periodic in every strip 
, 
or, respectively, 
, 
.
References
| [1] | H. Bohr, "Almost periodic functions" , Chelsea, reprint (1947) (Translated from German) |
| [2] | B.M. Levitan, "Almost-periodic functions" , Moscow (1953) (In Russian) |
Comments
References
| [a1] | A.S. Besicovitch, "Almost periodic functions" , Cambridge Univ. Press (1932) |
| [a2] | C. Corduneanu, "Almost periodic functions" , Wiley (1968) (Translated from Rumanian) |
Dirichlet series for an analytic almost-periodic function. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Dirichlet_series_for_an_analytic_almost-periodic_function&oldid=17761