thue-siegel-roth theorem

In mathematics, the Thue-Siegel-Roth theorem, also known simply as Roth's theorem, is a foundational result in diophantine approximation to algebraic numbers. It is of a qualitative type, stating that a given algebraic number α may not have too many rational number approximations, that are 'very good'. Over half a century, the meaning of very good here was refined by a number of mathematicians, starting with Axel Thue, and continuing with work of Carl Ludwig Siegel. Roth's result, which is best possible of its kind, dates from 1955. It states that for given ε > 0, the inequality

|\alpha - \frac{p}{q}| < q^{-(2 + \epsilon)}

can have only finitely many solutions in coprime integers p and q. Therefore, by taking an infimum, we can assert that any irrational α satisfies

|\alpha - \frac{p}{q}| > C(\epsilon)q^{-(2 + \epsilon)}

with C(ε) a positive constant depending only on ε > 0. This cannot be bettered in the sense that setting ε = 0 here meets the case that real numbers x generally do have rational approximations p/q to within q⁻². That is Dirichlet's theorem on diophantine approximation. Therefore Roth's result closed the gap, which in the earlier work was still unknown ground. For comparison, the original Thue's theorem from 1909 replaces the exponent −(2 + ε) by −(½d + 1 + ε), where d > 2 is the degree of α. The proof technique was the construction of an auxiliary function in several variables, leading to a contradiction in the presence of too many good approximation. By its nature, it was ineffective (see effective results in number theory); this is of particular interest since a major application of this type of result is to bounding the number of solutions of some diophantine equations. The fact that we don't actually know C(ε) means that the project of solving the equation, or bounding the size of the solutions, is out of reach. Later work using the methods of Alan Baker made some small impact on effective improvements to Liouville's theorem on diophantine approximation, which gives a bound

|\alpha-{p \over q}| \geq Cq^{-d}

(see Liouville number); but the inequalities are still weak. There is a higher-dimensional version, Schmidt's theorem, of the basic result. There are also numerous extensions, for example using the p-adic metric, based on the Roth method.

<< Previous

Word Browser

Next >>

gush katif
queens domain
pagiran muda mohamed bolkiah
hamad ibn jaber al thani
eduard von bhm ermolli
sugar house (salt lake city)
leroy bach
socialist party new psi
birmingham gun quarter
ertl company
jay bennett

pao fa temple
prince sa'ud al faysal
kwanza
klaus roth
reynaldo hahn
gledhill
greenhill lane
omar ali saifuddin iii
fstab
the music and art of radiohead
john clark monks

pentecost monday
seasonal lag
two phase commit protocol
a second chance at eden
union of christian and centre democrats
aogn rathaille
roth's theorem
aisling
piaras feiritar
family relationship
elgin watch company

amphoe mueang samut prakan
mtab
boris strmer
alexander trepov
nikolai golitsyn
the initiative (buffy the vampire slayer)
drusilla
ford classic
girija prasad koirala
olza
rila