Elliptic boundary value problem: Difference between revisions

Latest revision as of 15:52, 11 December 2013

The Skoda–El Mir theorem is a theorem of complex geometry, stated as follows:

Theorem (Skoda,^[1] El Mir,^[2] Sibony ^[3]). Let X be a complex manifold, and E a closed complete pluripolar set in X. Consider a closed positive current $\Theta$ on $X\backslash E$ which is locally integrable around E. Then the trivial extension of $\Theta$ to X is closed on X.

Notes

↑ H. Skoda. Prolongement des courants positifs fermes de masse finie, Invent. Math., 66 (1982), 361–376.
↑ H. El Mir. Sur le prolongement des courants positifs fermes, Acta Math., 153 (1984), 1–45.
↑ N. Sibony, Quelques problemes de prolongement de courants en analyse complexe, Duke Math. J., 52 (1985), 157–197

References

J.-P. Demailly, L² vanishing theorems for positive line bundles and adjunction theory, Lecture Notes of a CIME course on "Transcendental Methods of Algebraic Geometry" (Cetraro, Italy, July 1994)

Template:Differential-geometry-stub

[1] H. Skoda. Prolongement des courants positifs fermes de masse finie, Invent. Math., 66 (1982), 361–376.

[2] H. El Mir. Sur le prolongement des courants positifs fermes, Acta Math., 153 (1984), 1–45.

[3] N. Sibony, Quelques problemes de prolongement de courants en analyse complexe, Duke Math. J., 52 (1985), 157–197

[1]

[2]

[3]

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-Alyson is the title people use to call me and I think it sounds fairly good when you say it. It's not a typical factor but what she likes doing is to perform domino but she doesn't have the time recently. He works as a bookkeeper. Her family lives in Ohio.<br><br>my website ... best psychic ([http://www.onbizin.co.kr/xe/?document_srl=320614 my response])
+The '''Skoda–El Mir theorem''' is a theorem of [[complex geometry]],
+stated as follows:
+'''Theorem''' (Skoda,<ref>H. Skoda. ''Prolongement des courants positifs fermes de masse finie'', Invent. Math., 66 (1982), 361–376.</ref> El Mir,<ref>H. El Mir. ''Sur le prolongement des courants positifs fermes'', Acta Math., 153 (1984), 1–45.</ref> Sibony <ref>N. Sibony, ''Quelques problemes de prolongement de courants en analyse complexe,'' Duke Math. J., 52 (1985), 157–197</ref>).  Let ''X'' be a [[complex manifold]], and
+''E'' a closed complete [[pluripolar set]] in ''X''. Consider a closed [[positive current]] <math>\Theta</math> on <math> X \backslash E</math>
+which is locally integrable around ''E''. Then the trivial extension of <math>\Theta</math> to ''X'' is closed on ''X''.
+==Notes==
+<references />
+==References==
+*J.-P. Demailly,'' [http://arxiv.org/abs/alg-geom/9410022 L² vanishing theorems for positive line bundles and adjunction theory, Lecture Notes of a CIME course on "Transcendental Methods of Algebraic Geometry" (Cetraro, Italy, July 1994)]''
+{{DEFAULTSORT:Skoda-El Mir theorem}}
+[[Category:Complex manifolds]]
+[[Category:Several complex variables]]
+[[Category:Theorems in geometry]]
+{{differential-geometry-stub}}

Elliptic boundary value problem: Difference between revisions

Latest revision as of 15:52, 11 December 2013

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