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EspañolHURWITZ'S THEOREM
In mathematics, 'Hurwitz's theorem' is any of at least five different results named after Adolf Hurwitz.
In complex analysis, 'Hurwitz's theorem' roughly states that, under certain conditions, if a sequence of holomorphic functions converges uniformly to a holomorphic function on compact sets, then after a while those functions and the limit function have the same number of zeros in any open disk.
More precisely, let be an open set in the complex plane, and consider a sequence of holomorphic functions which converges uniformly on compact subsets of to a holomorphic function Let be an open disk of center and radius which is contained in together with its boundary. Assume that has no zeros on the disk boundary. Then, there exists a natural number such that for all greater than the functions and have the same number of zeros in
The requirement that have no zeros on the disk boundary is necessary. For example, consider the disk of center zero and radius 1, and the sequence
:
for all It converges uniformly to which has no zeros inside of this disk, but each has exactly one zero in the disk, which is
This result holds more generally for any bounded convex sets but it is most useful to state for disks.
An immediate consequence of this theorem is the following corollary. If is an open set and a sequence of holomorphic functions converges uniformly on compact subsets of to a holomorphic function and furthermore if is not zero at any point in , then is either identically zero or also is never zero.
★ John B. Conway. ''Functions of One Complex Variable I''. Springer-Verlag, New York, New York, 1978.
★ E. C. Titchmarsh, ''The Theory of Functions'', second edition (Oxford University Press, 1939; reprinted 1985), p. 119.
Main articles: Riemann-Hurwitz formula
In algebraic geometry, the result referred to as Hurwitz's theorem is an index theorem which relates the degree of a branched cover of algebraic curves, the genera of these curves and the behaviour of f at the branch points.
More explicitly, let be a finite morphism of curves over an algebraically closed field, and suppose that f is tamely ramified.
Let R be the ramification divisor
:
where denotes the ramification index of ''f'' at ''P''. Let ''n'' = deg ''f'', and let ''g''(''X''), ''g''(''Y'') denote the genus of ''X'', ''Y'' respectively.
Then Hurwitz's theorem states that
:2''g''(''X'') − 2 = ''n''(2''g''(''Y'') − 2) + deg ''R''.
★ R. Hartshorne, ''Algebraic Geometry'', Springer, New York 1977
In this context, Hurwitz's theorem states that the only composition algebras over are , , and , that is the real numbers, the complex numbers, the quaternions and the octonions.
★ John H. Conway, Derek A. Smith ''On Quaternions and Octonions''. A.K. Peters, 2003.
★ John Baez, ''The Octonions'', AMS 2001.
Main articles: Hurwitz's automorphisms theorem
If is a compact Riemann surface of genus then the group of conformal automorphisms of M satisfies
Note: A conformal automorphism of is any homeomorphism of to itself that preserves orientation, and angles along with their senses (clockwise/counterclockwise.)
★ H. Farkas and I. Kra, "Riemann Surfaces", 2nd ed., Springer, 2004, § V.1, p. 257ff.
In the field of Diophantine approximation, Hurwitz's theorem states that for every irrational number there are infinitely many rationals ''m''/''n'' such that
:
Here the constant is the best possible; if we replace by any number ''A'' > 51/2 then there exists at least one irrational such that there exist only ''finitely'' many rational numbers m/n such that the formula above holds.
★ G. H. Hardy, E. M. Wright ''An introduction to the Theory of Numbers'', fifth edition, Oxford science publications, 2003.
★
Hurwitz's theorem in complex analysis
In complex analysis, 'Hurwitz's theorem' roughly states that, under certain conditions, if a sequence of holomorphic functions converges uniformly to a holomorphic function on compact sets, then after a while those functions and the limit function have the same number of zeros in any open disk.
More precisely, let be an open set in the complex plane, and consider a sequence of holomorphic functions which converges uniformly on compact subsets of to a holomorphic function Let be an open disk of center and radius which is contained in together with its boundary. Assume that has no zeros on the disk boundary. Then, there exists a natural number such that for all greater than the functions and have the same number of zeros in
The requirement that have no zeros on the disk boundary is necessary. For example, consider the disk of center zero and radius 1, and the sequence
:
for all It converges uniformly to which has no zeros inside of this disk, but each has exactly one zero in the disk, which is
This result holds more generally for any bounded convex sets but it is most useful to state for disks.
An immediate consequence of this theorem is the following corollary. If is an open set and a sequence of holomorphic functions converges uniformly on compact subsets of to a holomorphic function and furthermore if is not zero at any point in , then is either identically zero or also is never zero.
References
★ John B. Conway. ''Functions of One Complex Variable I''. Springer-Verlag, New York, New York, 1978.
★ E. C. Titchmarsh, ''The Theory of Functions'', second edition (Oxford University Press, 1939; reprinted 1985), p. 119.
Hurwitz's theorem in algebraic geometry
Main articles: Riemann-Hurwitz formula
In algebraic geometry, the result referred to as Hurwitz's theorem is an index theorem which relates the degree of a branched cover of algebraic curves, the genera of these curves and the behaviour of f at the branch points.
More explicitly, let be a finite morphism of curves over an algebraically closed field, and suppose that f is tamely ramified.
Let R be the ramification divisor
:
where denotes the ramification index of ''f'' at ''P''. Let ''n'' = deg ''f'', and let ''g''(''X''), ''g''(''Y'') denote the genus of ''X'', ''Y'' respectively.
Then Hurwitz's theorem states that
:2''g''(''X'') − 2 = ''n''(2''g''(''Y'') − 2) + deg ''R''.
References
★ R. Hartshorne, ''Algebraic Geometry'', Springer, New York 1977
Hurwitz's theorem for composition algebras
In this context, Hurwitz's theorem states that the only composition algebras over are , , and , that is the real numbers, the complex numbers, the quaternions and the octonions.
References
★ John H. Conway, Derek A. Smith ''On Quaternions and Octonions''. A.K. Peters, 2003.
★ John Baez, ''The Octonions'', AMS 2001.
Hurwitz's theorem on Riemann surfaces
Main articles: Hurwitz's automorphisms theorem
If is a compact Riemann surface of genus then the group of conformal automorphisms of M satisfies
Note: A conformal automorphism of is any homeomorphism of to itself that preserves orientation, and angles along with their senses (clockwise/counterclockwise.)
References
★ H. Farkas and I. Kra, "Riemann Surfaces", 2nd ed., Springer, 2004, § V.1, p. 257ff.
Hurwitz's theorem in number theory
In the field of Diophantine approximation, Hurwitz's theorem states that for every irrational number there are infinitely many rationals ''m''/''n'' such that
:
Here the constant is the best possible; if we replace by any number ''A'' > 51/2 then there exists at least one irrational such that there exist only ''finitely'' many rational numbers m/n such that the formula above holds.
References
★ G. H. Hardy, E. M. Wright ''An introduction to the Theory of Numbers'', fifth edition, Oxford science publications, 2003.
★
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