Difference between revisions of "Canonical sections"
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''canonical cuts'' | ''canonical cuts'' | ||
A system of canonical sections is a set | A system of canonical sections is a set | ||
− | + | $$ | |
+ | S = \{ a _ {1} , b _ {1} \dots a _ {g} ,\ | ||
+ | b _ {g} , l _ {1} \dots l _ \nu \} | ||
+ | $$ | ||
− | of | + | of $ 2g + \nu $ |
+ | curves on a finite [[Riemann surface|Riemann surface]] $ R $ | ||
+ | of genus $ g $ | ||
+ | with a boundary of $ \nu $ | ||
+ | components such that when these curves are removed from $ R $, | ||
+ | i.e. on cutting $ R $ | ||
+ | along the curves of $ S $, | ||
+ | there remains a (planar) simply-connected domain $ R ^ {*} $. | ||
+ | More precisely, a system $ S $ | ||
+ | is a set of canonical sections if to each closed or cyclic section $ a _ {j} $, | ||
+ | $ j = 1 \dots g $, | ||
+ | in $ S $( | ||
+ | or cycle for short) there is exactly one so-called adjoint cycle $ b _ {j} $ | ||
+ | cutting $ a _ {j} $ | ||
+ | at exactly one fixed point $ p _ {0} \in R $ | ||
+ | common to all the sections of $ S $. | ||
+ | The remaining cycles $ a _ {k} , b _ {k} $, | ||
+ | $ k \neq j $, | ||
+ | and curves $ l _ {s} $, | ||
+ | $ s = 1 \dots \nu $, | ||
+ | have only the point $ p _ {0} $ | ||
+ | in common, and do not pass from one side of the section $ a _ {j} $ | ||
+ | to the other; each curve $ l _ {s} $ | ||
+ | joins $ p _ {0} $ | ||
+ | with the corresponding boundary component. On a given Riemann surface $ R $ | ||
+ | there exists an infinite set of systems of canonical sections. In particular, for any simply-connected domain $ D \subset R $ | ||
+ | that, together with its closure $ \overline{D}\; $, | ||
+ | lies strictly in the interior of $ R $, | ||
+ | a system of canonical sections can be chosen such that $ D \subset R ^ {*} $. | ||
− | Furthermore, it is always possible to find a system of canonical sections | + | Furthermore, it is always possible to find a system of canonical sections $ S $ |
+ | consisting entirely of analytic curves. The uniqueness of a system $ S $ | ||
+ | of analytic curves can be ensured, for example, by the additional requirement that some functional related to $ S $ | ||
+ | attains an extremum. In particular, one can draw cyclic canonical sections $ a _ {j} , b _ {j} $ | ||
+ | of a system $ S $ | ||
+ | such that the greatest value of the [[Robin constant|Robin constant]] in the class of systems homotopic to $ S $ | ||
+ | is attained at a point $ p _ {0} $ | ||
+ | in a specific domain $ D \subset R $, | ||
+ | $ p _ {0} \in D $. | ||
+ | Uniqueness of the curves $ l _ {s} $ | ||
+ | can also be ensured by requiring that the Robin constants are maximized at a specified pair of points (see [[#References|[2]]]). | ||
====References==== | ====References==== | ||
<table><TR><TD valign="top">[1]</TD> <TD valign="top"> A. Hurwitz, R. Courant, "Vorlesungen über allgemeine Funktionentheorie und elliptische Funktionen" , '''1''' , Springer (1964) pp. Chapt.8</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> M. Schiffer, D.C. Spencer, "Functionals of finite Riemann surfaces" , Princeton Univ. Press (1954)</TD></TR></table> | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> A. Hurwitz, R. Courant, "Vorlesungen über allgemeine Funktionentheorie und elliptische Funktionen" , '''1''' , Springer (1964) pp. Chapt.8</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> M. Schiffer, D.C. Spencer, "Functionals of finite Riemann surfaces" , Princeton Univ. Press (1954)</TD></TR></table> |
Latest revision as of 06:29, 30 May 2020
canonical cuts
A system of canonical sections is a set
$$ S = \{ a _ {1} , b _ {1} \dots a _ {g} ,\ b _ {g} , l _ {1} \dots l _ \nu \} $$
of $ 2g + \nu $ curves on a finite Riemann surface $ R $ of genus $ g $ with a boundary of $ \nu $ components such that when these curves are removed from $ R $, i.e. on cutting $ R $ along the curves of $ S $, there remains a (planar) simply-connected domain $ R ^ {*} $. More precisely, a system $ S $ is a set of canonical sections if to each closed or cyclic section $ a _ {j} $, $ j = 1 \dots g $, in $ S $( or cycle for short) there is exactly one so-called adjoint cycle $ b _ {j} $ cutting $ a _ {j} $ at exactly one fixed point $ p _ {0} \in R $ common to all the sections of $ S $. The remaining cycles $ a _ {k} , b _ {k} $, $ k \neq j $, and curves $ l _ {s} $, $ s = 1 \dots \nu $, have only the point $ p _ {0} $ in common, and do not pass from one side of the section $ a _ {j} $ to the other; each curve $ l _ {s} $ joins $ p _ {0} $ with the corresponding boundary component. On a given Riemann surface $ R $ there exists an infinite set of systems of canonical sections. In particular, for any simply-connected domain $ D \subset R $ that, together with its closure $ \overline{D}\; $, lies strictly in the interior of $ R $, a system of canonical sections can be chosen such that $ D \subset R ^ {*} $.
Furthermore, it is always possible to find a system of canonical sections $ S $ consisting entirely of analytic curves. The uniqueness of a system $ S $ of analytic curves can be ensured, for example, by the additional requirement that some functional related to $ S $ attains an extremum. In particular, one can draw cyclic canonical sections $ a _ {j} , b _ {j} $ of a system $ S $ such that the greatest value of the Robin constant in the class of systems homotopic to $ S $ is attained at a point $ p _ {0} $ in a specific domain $ D \subset R $, $ p _ {0} \in D $. Uniqueness of the curves $ l _ {s} $ can also be ensured by requiring that the Robin constants are maximized at a specified pair of points (see [2]).
References
[1] | A. Hurwitz, R. Courant, "Vorlesungen über allgemeine Funktionentheorie und elliptische Funktionen" , 1 , Springer (1964) pp. Chapt.8 |
[2] | M. Schiffer, D.C. Spencer, "Functionals of finite Riemann surfaces" , Princeton Univ. Press (1954) |
Canonical sections. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Canonical_sections&oldid=46196