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Linear continuous division for exterior and interior products

Author(s): P. Domanski; B. Jakubczyk
Journal: Proc. Amer. Math. Soc. 131 (2003), 3163-3175.
MSC (2000): Primary 46E10, 58A10
Posted: May 9, 2003
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Abstract: We consider the complex

\begin{displaymath}\begin{CD}0@>>> {\Lambda\sb 0(M;E)} @>{\partial\sb \omega}>> ... ...>>{\dots} @>{\partial\sb\omega}>> {\Lambda\sb m(M;E)}, \end{CD}\end{displaymath}

where $E$ is a finite-dimensional vector bundle over a suitable differential manifold $M$, $\Lambda\sb q(M;E)$ denotes the space of all smooth or real analytic or holomorphic sections of the $q$-exterior product of $E$ and $\partial\sb\omega(\eta):=\omega\wedge\eta$ for $\omega\in \Lambda\sb 1(M;E)$. We give sufficient and necessary conditions for the above complex to be exact and, in smooth and holomorphic cases, we give sufficient conditions for its splitting, i.e., for existence of linear continuous right inverse operators for $\partial\sb\omega:\Lambda\sb q(M;E)\to \operatorname{Im} \partial\sb\omega\subseteq \Lambda\sb{q+1}(M;E)$.

Analogous results are obtained whenever $M$ is replaced by a suitable closed subset $X$ or $\partial\sb\omega$ are replaced by the interior product operators $\partial\sb Z$, $\partial\sb Z(\eta):=Z\rfloor \eta$ for a given section $Z$ of the dual bundle $E\sp *$.

References:

1.
E. Bierstone, P. Milman, Local analytic invariants and splitting theorems in differential analysis, Israel J. Math. 60 (1987), 257-280. MR 89g:58021

2.
E. Bierstone, P. Milman, Geometric and differential properties of subanalytic sets, Ann. Math. 147 (1998), 731-785. MR 2000c:32027

3.
E. Bierstone, G. W. Schwartz, Continuous linear division and extension of $C\sp\infty$ functions, Duke Math. J. 50 (1983), 233-271. MR 86b:32010

4.
H. Cartan, Variétés analytiques réelles et variétés analytiques complexes, Bull. Soc. Math. France 85 (1957), 77-99. MR 20:1339

5.
P. Domanski, D. Vogt, A splitting theorem for the space of smooth functions, J. Funct. Anal. 153 (1998), 203-248. MR 99b:46001

6.
P. Domanski, D. Vogt, A splitting theory for the space of distributions, Studia Math. 140 (2000), 57-77. MR 2001e:46125

7.
P. Domanski, D. Vogt, Distributional complexes split for positive dimensions, J. reine angew. Math. 522 (2000), 63-79. MR 2001g:46090

8.
D. Eisenbud, Commutative Algebra, Springer Verlag, 1994. MR 97a:13001

9.
L. Frerick, Extension operators for spaces of infinitely differentiable Whitney functions, Habilitationsschrift, Wuppertal, 2001.

10.
P. Griffiths, J. Harris, Principles of Algebraic Geometry, Wiley and Sons, New York, 1978. MR 80b:14001

11.
F. Guaraldo, P. Macri, A. Tancredi, Topics on Real Analytic Spaces, Vieweg, Braunschweig, 1986. MR 90j:32001

12.
B. Jakubczyk, M. Zhitomirskii, Local reduction theorems and invariants for singular contact structures, Ann. Inst. Fourier 51 (2001), 237-295. MR 2002c:58001

13.
B. Jakubczyk, M. Zhitomirskii, Distributions of corank 1 and their characteristic vector fields, Trans. Amer. Math. Soc., to appear.

14.
B. Malgrange, Ideals of Differentiable Functions, Oxford University Press, Oxford, 1966. MR 35:3446

15.
R. Meise, D. Vogt, Introduction to Functional Analysis, Clarendon Press, Oxford, 1997. MR 98g:46001

16.
R. Moussu, Sur l'existence d'intégrales premières pour un germe de forme de Pfaff, Ann. Inst. Fourier 26 (1976), 171-220. MR 54:3737

17.
R. Narasimhan, Introduction to the Theory of Analytic Spaces, Lecture Notes in Math. 25, Springer, Berlin, 1966. MR 36:428

18.
M. Poppenberg, D. Vogt, A tame splitting theorem for exact sequences of Fréchet spaces, Math. Z. 219 (1995), 141-161. MR 96h:46109

19.
S. Rolewicz, Metric Linear Spaces, PWN - Polish Scientific Publisher, Warszawa, 1984. MR 55:10993 (review of 1972 edition)

20.
J.M. Ruiz, The Basic Theory of Power Series, Advanced Lectures in Mathematics, Vieveg, Wiesbaden, 1993. MR 94i:13012

21.
J.-P. Serre, Faisceaux algébriques cohérents, Ann. Math. 69 (1955), 197-278. MR 16:953c

22.
M. Tidten, Fortsetzungen von $C\sp\infty$-Funktionen, welche auf einer abgeschlossenen Menge in $\mathbb{R}\sp n$ definiert sind, Manuscripta Math. 27 (1979), 291-312. MR 80k:58016

23.
J. C. Tougeron, Ideaux de Fonctions Differentiables, Springer, Berlin, 1972. MR 55:13472

24.
D. Vogt, Sequence space representations of spaces of test functions and distributions, in: Functional Analysis, Holomorphy and Approximation Theory, G. L. Zapata (ed.), Lecture Notes Pure Appl. Math. 83, Marcel Dekker, New York, 1983. MR 84f:46048

25.
V. P. Zaharjuta, Spaces of analytic functions and complex potential theory, in: Linear Topological Spaces and Complex Analysis 1, A. Aytuna (ed.), METU-TÜBITAK, Ankara, 1994, pp. 74-146. MR 97d:46002

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Additional Information:

P. Domanski
Affiliation: Faculty of Mathematics and Computer Science, A. Mickiewicz University and Institute of Mathematics (Poznan branch), Polish Academy of Sciences, Umultowska 87, 61-614 Poznan, Poland
Email: domanski@math.amu.edu.pl

B. Jakubczyk
Affiliation: Institute of Applied Mathematics, Warsaw University, ul. Banacha 2, 02-097 Warszawa, Poland \textit{On leave from:} Institute of Mathematics, Polish Academy of Sciences, Warszawa, Poland
Email: B.Jakubczyk@impan.gov.pl

DOI: 10.1090/S0002-9939-03-07107-7
PII: S 0002-9939(03)07107-7
Keywords: Exact complexes, splitting, exterior and interior multiplication, division properties, spaces of smooth functions, spaces of holomorphic functions, spaces of real analytic functions
Received by editor(s): May 7, 2002
Posted: May 9, 2003
Additional Notes: The research of the second named author was partially supported by the Committee for Scientific Research, Poland, grant KBN 2P03A 03516
Communicated by: Jozef Dodziuk
Copyright of article: Copyright 2003, American Mathematical Society

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