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In [[mathematics]], a '''harmonious set''' is a subset of a [[locally compact abelian group]] on which every weak character may be uniformly approximated by strong characters. Equivalently, a suitably defined dual set is relatively dense in the [[Pontryagin dual]] of the group. This notion was introduced by [[Yves Meyer]] in 1970 and later turned out to play an important role in the mathematical theory of [[quasicrystal]]s. Some related concepts are '''model sets''', '''[[Meyer set]]s''', and '''cut-and-project sets'''.


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== Definition ==
 
Let ''&Lambda;'' be a subset of a locally compact abelian group ''G'' and ''&Lambda;''<sub>''d''</sub> be the subgroup of ''G'' generated by ''&Lambda;'', with [[discrete topology]]. A '''weak character''' is a restriction to ''&Lambda;'' of an algebraic homomorphism from ''&Lambda;''<sub>''d''</sub> into the [[circle group]]:
 
: <math> \chi: \Lambda_d\to\mathbf{T}, \quad
\chi\in\operatorname{Hom}(\Lambda_d,\mathbf{T}). </math>
 
A '''strong character''' is a restriction to ''&Lambda;'' of a continuous homomorphism from ''G'' to '''T''', that is an element of the [[Pontryagin dual]] of ''G''.
 
A set ''&Lambda;'' is '''harmonious''' if every weak character may be approximated by
strong characters uniformly on ''&Lambda;''. Thus for any ''&epsilon;'' > 0 and any weak character ''&chi;'', there exists a strong character ''&xi;'' such that
 
: <math> \sup_\Lambda |\chi(\lambda)-\xi(\lambda)| \leq \epsilon, \quad
\chi\in\operatorname{Hom}(\Lambda_d,\mathbf{T}), \xi\in\hat{G}. </math>
 
If the locally compact abelian group ''G'' is [[separable topological space|separable]] and [[metrizable]] (its topology may be defined by a translation-invariant metric) then harmonious sets admit another, related, description. Given a subset ''&Lambda;'' of ''G'' and a positive ''&epsilon;'', let ''M''<sub>''&epsilon;''</sub> be the subset of the Pontryagin dual of ''G'' consisting of all characters that are almost trivial on ''&Lambda;'':
 
: <math> \sup_\Lambda|\chi(\lambda)-1| \leq \epsilon, \quad
\chi\in\hat{G}.</math>
 
Then ''&Lambda;'' is '''harmonious''' if the sets ''M''<sub>''&epsilon;''</sub> are '''relatively dense''' in the sense of [[Besicovitch]]: for every ''&epsilon;'' > 0 there exists a compact subset ''K''<sub>''&epsilon;''</sub> of the Pontryagin dual such that
 
: <math> M_\epsilon + K_\epsilon = \hat{G}.</math>  
 
== Properties ==
 
* A subset of a harmonious set is harmonious.  
 
* If ''&Lambda;'' is a harmonious set and ''F'' is a finite set then the set ''&Lambda;'' + ''F'' is also harmonious.
 
The next two properties show that the notion of a harmonious set is nontrivial only when the ambient group is neither compact nor discrete.
 
* A finite set ''&Lambda;'' is always harmonious. If the group ''G'' is compact then, conversely, every harmonious set is finite.
 
* If ''G'' is a [[discrete group]] then every set is harmonious.
 
== Examples ==
 
Interesting examples of multiplicatively closed harmonious sets of real numbers arise in the theory of [[diophantine approximation]].
 
* Let ''G'' be the additive group of [[real number]]s, ''&theta;'' >1, and the set ''&Lambda;'' consist of all finite sums of different powers of ''&theta;''. Then ''&Lambda;'' is harmonious if and only if ''&theta;'' is a [[Pisot number]]. In particular, the sequence of powers of a Pisot number is harmonious.
 
* Let '''K''' be a real [[algebraic number field]] of degree ''n'' over '''Q''' and the set ''&Lambda;'' consist of all Pisot or [[Salem number|Salem]] numbers of degree ''n'' in '''K'''. Then ''&Lambda;'' is contained in the open interval (1,&infin;), closed under multiplication, and harmonious. Conversely, any set of real numbers with these 3 properties consists of all Pisot or Salem numbers of degree ''n'' in some real algebraic number field '''K''' of degree ''n''.
 
== See also ==
 
* [[Almost periodic function]]
 
== References ==
 
* [[Yves Meyer]], ''Algebraic numbers and harmonic analysis'', North-Holland Mathematical Library, vol.2, North-Holland, 1972
 
[[Category:Harmonic analysis]]
[[Category:Diophantine approximation]]
[[Category:Tessellation]]

Revision as of 03:41, 21 March 2013

In mathematics, a harmonious set is a subset of a locally compact abelian group on which every weak character may be uniformly approximated by strong characters. Equivalently, a suitably defined dual set is relatively dense in the Pontryagin dual of the group. This notion was introduced by Yves Meyer in 1970 and later turned out to play an important role in the mathematical theory of quasicrystals. Some related concepts are model sets, Meyer sets, and cut-and-project sets.

Definition

Let Λ be a subset of a locally compact abelian group G and Λd be the subgroup of G generated by Λ, with discrete topology. A weak character is a restriction to Λ of an algebraic homomorphism from Λd into the circle group:

χ:ΛdT,χHom(Λd,T).

A strong character is a restriction to Λ of a continuous homomorphism from G to T, that is an element of the Pontryagin dual of G.

A set Λ is harmonious if every weak character may be approximated by strong characters uniformly on Λ. Thus for any ε > 0 and any weak character χ, there exists a strong character ξ such that

supΛ|χ(λ)ξ(λ)|ϵ,χHom(Λd,T),ξG^.

If the locally compact abelian group G is separable and metrizable (its topology may be defined by a translation-invariant metric) then harmonious sets admit another, related, description. Given a subset Λ of G and a positive ε, let Mε be the subset of the Pontryagin dual of G consisting of all characters that are almost trivial on Λ:

supΛ|χ(λ)1|ϵ,χG^.

Then Λ is harmonious if the sets Mε are relatively dense in the sense of Besicovitch: for every ε > 0 there exists a compact subset Kε of the Pontryagin dual such that

Mϵ+Kϵ=G^.

Properties

  • A subset of a harmonious set is harmonious.
  • If Λ is a harmonious set and F is a finite set then the set Λ + F is also harmonious.

The next two properties show that the notion of a harmonious set is nontrivial only when the ambient group is neither compact nor discrete.

  • A finite set Λ is always harmonious. If the group G is compact then, conversely, every harmonious set is finite.

Examples

Interesting examples of multiplicatively closed harmonious sets of real numbers arise in the theory of diophantine approximation.

  • Let G be the additive group of real numbers, θ >1, and the set Λ consist of all finite sums of different powers of θ. Then Λ is harmonious if and only if θ is a Pisot number. In particular, the sequence of powers of a Pisot number is harmonious.
  • Let K be a real algebraic number field of degree n over Q and the set Λ consist of all Pisot or Salem numbers of degree n in K. Then Λ is contained in the open interval (1,∞), closed under multiplication, and harmonious. Conversely, any set of real numbers with these 3 properties consists of all Pisot or Salem numbers of degree n in some real algebraic number field K of degree n.

See also

References

  • Yves Meyer, Algebraic numbers and harmonic analysis, North-Holland Mathematical Library, vol.2, North-Holland, 1972
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