Davenport–Schmidt theorem について

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Davenport–Schmidt theorem ：ウィキペディア英語版

Davenport–Schmidt theorem
In mathematics, specifically the area of Diophantine approximation, the Davenport–Schmidt theorem tells us how well a certain kind of real number can be approximated by another kind. Specifically it tells us that we can get a good approximation to irrational numbers that are not quadratic by using either quadratic irrationals or simply rational numbers. It is named after Harold Davenport and Wolfgang M. Schmidt.
==Statement==
Given a number α which is either rational or a quadratic irrational, we can find unique integers ''x'', ''y'', and ''z'' such that ''x'', ''y'', and ''z'' are not all zero, the first non-zero one among them is positive, they are relatively prime, and we have
:

x\alpha^2 +y\alpha +z=0.\,

If α is a quadratic irrational we can take ''x'', ''y'', and ''z'' to be the coefficients of its minimal polynomial. If α is rational we will have ''x'' = 0. With these integers uniquely determined for each such α we can define the ''height'' of α to be
:

H(\alpha)=\max\.\,

The theorem then says that for any real number ξ which is neither rational nor a quadratic irrational, we can find infinitely many real numbers α which ''are'' rational or quadratic irrationals and which satisfy
:

|\xi-\alpha|

where
:

C=\left\ C_0 & \textrm\ |\xi|<1 \\ C_0\xi^2 & \textrm\ |\xi|>1.\end\right.

Here we can take ''C''₀ to be any real number satisfying ''C''₀ > 160/9.〔H. Davenport, Wolfgang M. Schmidt, "''Approximation to real numbers by quadratic irrationals''," Acta Arithmetica 13, (1967).〕
While the theorem is related to Roth's theorem, its real use lies in the fact that it is effective, in the sense that the constant ''C'' can be worked out for any given ξ.

抄文引用元・出典: フリー百科事典『ウィキペディア（Wikipedia）』
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