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L2 d-bar estimates were known since at least the 60s (cf Hormander's book).
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In mathematics, '''L<sup>2</sup> cohomology''' is a cohomology theory for smooth non-compact manifolds ''M'' with [[Riemannian metric]]. It defined in the same way as [[de Rham cohomology]] except that one uses [[square-integrable]] [[differential form]]s. The notion of square-integrability makes sense because the metric on ''M'' gives rise to a norm on differential forms and a [[volume form]].
In [[mathematics]], '''L<sup>2</sup> cohomology''' is a [[cohomology theory]] for [[smooth manifold|smooth]] non-compact [[manifold]]s ''M'' with [[Riemannian metric]]. It is defined in the same way as [[de Rham cohomology]] except that one uses [[square-integrable]] [[differential form]]s. The notion of square-integrability makes sense because the [[metric (mathematics)|metric]] on ''M'' gives rise to a [[norm (mathematics)|norm]] on differential forms and a [[volume form]].


'''L<sup>2</sup> cohomology''', which grew in part out of L<sup>2</sub> d-bar estimates from the 1960s, was studied cohomologically, independently by [[Steven Zucker]] (1978) and [[Jeff Cheeger]] (1979). It is closely related to [[intersection cohomology]]; indeed, the results in the preceding cited works can be expressed in terms of intersection cohomology.
L<sup>2</sup> cohomology, which grew in part out of L<sup>2</sup> d-bar estimates from the 1960s, was studied cohomologically, independently by [[Steven Zucker]] (1978) and [[Jeff Cheeger]] (1979). It is closely related to [[intersection cohomology]]; indeed, the results in the preceding cited works can be expressed in terms of intersection cohomology.
Another such result is the '''Zucker conjecture''', which states that for a Hermitian [[locally symmetric variety]] the L<sup>2</sup> cohomology is isomorphic to the intersection cohomology (with the [[middle perversity]]) of its [[Baily-Borel compactification]] ([[Zucker]] 1982). This was proved in different ways by Looijenga (1988) and by Saper and Stern (1990).
==References==
*{{springer|id=B/b130010|author=B. Brent Gordon|title=Baily-Borel compactification}}
*Cheeger, Jeff ''Spectral geometry of singular Riemannian spaces.'' J. Differential Geom. 18 (1983), no. 4, 575--657 (1984).{{MathSciNet|id=0730920}}
*Cheeger, Jeff ''On the Hodge theory of Riemannian pseudomanifolds.'' Geometry of the Laplace operator (Proc. Sympos. Pure Math., Univ. Hawaii, Honolulu, Hawaii, 1979), pp. 91--146, Proc. Sympos. Pure Math., XXXVI, Amer. Math. Soc., Providence, R.I., 1980. {{MathSciNet|id=0573430}}
*Cheeger, Jeff ''On the spectral geometry of spaces with cone-like singularities.'' Proc. Nat. Acad. Sci. U.S.A. 76 (1979), no. 5, 2103--2106. {{MathSciNet|id=0530173}}
*J. Cheeger, M. Goresky, R. MacPherson, ''L<sup>2</sup> cohomology and intersection homology for singular algebraic varieties'', Seminar on differential geometry, vol. 102 of Annals of mathamtical studies, pages 303-340.{{MathSciNet|id=0645745}}
*M. Goresky [http://www.math.ias.edu/~goresky/pdf/zucker.pdf L<sup>2</sup> cohomology is intersection cohomology ]
*Frances Kirwan, Jonathan Woolf ''An Introduction to Intersection Homology Theory,'', chapter 6 ISBN 1584881844
*Looijenga, Eduard ''L<sup>2</sup>-cohomology of locally symmetric varieties.'' Compositio Math. 67 (1988), no. 1, 3-20. {{MathSciNet|id=0949269}}
*Saper, Leslie; Stern, Mark ''L<sub>2</sub>-cohomology of arithmetic varieties.'' Ann. of Math. (2) 132 (1990), no. 1, 1-69. {{MathSciNet|id=1059935}}
*Zucker, Steven, ''Théorie de Hodge à coefficients dégénérescents.'' Comptes Rendus Acad. Sci. 286 (1978), 1137-1140.
*Zucker, Steven, ''Hodge theory with degenerating coefficients: L<sup>2</sup>-cohomology in the Poincaré metric.'' Annals of Math. 109 (1979), 415-476.
*Zucker, Steven, ''L<sup>2</sup>-cohomology of warped products and arithmetic groups.'' Inventiones Math. 70 (1982), 169-218.


Another such result is the '''Zucker conjecture''', which states that for a [[Hermitian variety|Hermitian]] [[locally symmetric variety]] the L<sup>2</sup> cohomology is [[isomorphic]] to the [[intersection cohomology]] (with the [[middle perversity]]) of its [[Baily–Borel compactification]] (Zucker 1982). This was proved in different ways by [[Eduard Looijenga]] (1988) and by Leslie Saper and [[Mark Stern]] (1990).


==See also==
{{geometry-stub}}


*[[Dirichlet form]]
[[Category:differential geometry]]
*[[Dirichlet principle]]
*[[Riemannian manifold]]

==References==
{{refbegin|2}}
*{{Cite book| publisher = Soc. Math. France
| pages = 43–72. Astérisque, No. 32–33
| last = Atiyah
| first = Michael F.
| author-link=Michael Atiyah
| title = Colloque "Analyse et Topologie" en l'Honneur de [[Henri Cartan]] (Orsay, 1974)
| chapter = Elliptic operators, discrete groups and von Neumann algebras
| location = Paris
| year = 1976
}}
*{{springer|id=B/b130010|first=B. Brent|last= Gordon|title=Baily–Borel compactification}}
*{{citation|last=Cheeger|first= Jeff|author-link=Jeff Cheeger| title=Spectral geometry of singular Riemannian spaces|journal= [[Journal of Differential Geometry]]|volume= 18 |year=1983|issue= 4|pages= 575–657|doi= 10.4310/jdg/1214438175|mr=0730920|doi-access= free}}
*{{cite book |last=Cheeger |first=Jeff |chapter=On the Hodge theory of Riemannian pseudomanifolds |title=Geometry of the Laplace operator |pages=91–146 |series=Proc. Sympos. Pure Math. |volume=36 |publisher=American Mathematical Society |location=Providence, R.I. |year=1980 |mr=0573430}}
*{{cite journal |last=Cheeger |first=Jeff |title=On the spectral geometry of spaces with cone-like singularities |journal=Proc. Natl. Acad. Sci. U.S.A. |volume=76 |year=1979 |issue=5 |pages=2103–2106 |doi=10.1073/pnas.76.5.2103 |pmid=16592646 |pmc=383544 |bibcode=1979PNAS...76.2103C |mr=0530173|doi-access=free }}
*{{cite book |last1=Cheeger |first1=J. |last2=Goresky |first2=M. |last3=MacPherson |first3=R. |chapter=L<sup>2</sup> cohomology and intersection homology for singular algebraic varieties |title=Seminar on Differential Geometry |volume=102 |series=Annals of Mathematics Studies |pages=303–340 |mr=0645745}}
*[[Mark Goresky]], [http://www.math.ias.edu/~goresky/pdf/zucker.pdf L<sup>2</sup> cohomology is intersection cohomology ]
*[[Frances Kirwan]], Jonathan Woolf ''An Introduction to Intersection Homology Theory,'', chapter 6 {{isbn|1-58488-184-4}}
*{{cite journal |author-link=Eduard Looijenga |last=Looijenga |first=Eduard |title=L<sup>2</sup>-cohomology of locally symmetric varieties |journal=[[Compositio Mathematica]] |volume=67 |year=1988 |issue=1 |pages=3–20 |mr=0949269}}
*{{Cite book
| publisher = Springer-Verlag
| isbn = 3-540-43566-2
| volume = 44
| last = Lück
| first = Wolfgang
| author-link=Wolfgang Lück
| title = L<sup>2</sup>-invariants: theory and applications to geometry and ''K''-theory
| location = Berlin
| series = Ergebnisse der Mathematik und ihrer Grenzgebiete. 3. Folge. A Series of Modern Surveys in Mathematics [Results in Mathematics and Related Areas. 3rd Series. A Series of Modern Surveys in Mathematics]
| year = 2002
}}
*{{cite journal|last1=Saper|first1= Leslie|author2-link=Mark Stern|last2=Stern|first2= Mark|title= L<sub>2</sub>-cohomology of arithmetic varieties|journal= [[Annals of Mathematics]]|series=Second Series |volume= 132 |year=1990|issue=1|pages= 1–69|doi= 10.2307/1971500|jstor= 1971500|mr=1059935}}
*{{cite journal|last1=Zucker |first1= Steven |title=Théorie de Hodge à coefficients dégénérescents |journal=Compt. Rend. Acad. Sci. |volume=286 |year=1978 |pages=1137–1140}}
*{{cite journal|last1=Zucker |first1= Steven |title=Hodge theory with degenerating coefficients: L<sup>2</sup>-cohomology in the Poincaré metric |journal=[[Annals of Mathematics]] |volume=109 |year=1979 |issue= 3 |pages=415–476|doi= 10.2307/1971221 |jstor= 1971221 }}
*{{cite journal|last1=Zucker |first1= Steven |title=L<sup>2</sup>-cohomology of warped products and arithmetic groups |journal=[[Inventiones Mathematicae]] |volume=70 |year=1982 |issue= 2 |pages=169–218|doi= 10.1007/BF01390727 |bibcode= 1982InMat..70..169Z |s2cid= 121348276 }}
{{refend}}

{{DEFAULTSORT:L2 Cohomology}}
[[Category:Cohomology theories]]
[[Category:Differential geometry]]
[[Category:Differential topology]]
[[Category:Differential topology]]


{{differential-geometry-stub}}
{{topology-stub}}

Latest revision as of 15:56, 20 June 2022

In mathematics, L2 cohomology is a cohomology theory for smooth non-compact manifolds M with Riemannian metric. It is defined in the same way as de Rham cohomology except that one uses square-integrable differential forms. The notion of square-integrability makes sense because the metric on M gives rise to a norm on differential forms and a volume form.

L2 cohomology, which grew in part out of L2 d-bar estimates from the 1960s, was studied cohomologically, independently by Steven Zucker (1978) and Jeff Cheeger (1979). It is closely related to intersection cohomology; indeed, the results in the preceding cited works can be expressed in terms of intersection cohomology.

Another such result is the Zucker conjecture, which states that for a Hermitian locally symmetric variety the L2 cohomology is isomorphic to the intersection cohomology (with the middle perversity) of its Baily–Borel compactification (Zucker 1982). This was proved in different ways by Eduard Looijenga (1988) and by Leslie Saper and Mark Stern (1990).

See also

[edit]

References

[edit]
  • Atiyah, Michael F. (1976). "Elliptic operators, discrete groups and von Neumann algebras". Colloque "Analyse et Topologie" en l'Honneur de Henri Cartan (Orsay, 1974). Paris: Soc. Math. France. pp. 43–72. Astérisque, No. 32–33.
  • Gordon, B. Brent (2001) [1994], "Baily–Borel compactification", Encyclopedia of Mathematics, EMS Press
  • Cheeger, Jeff (1983), "Spectral geometry of singular Riemannian spaces", Journal of Differential Geometry, 18 (4): 575–657, doi:10.4310/jdg/1214438175, MR 0730920
  • Cheeger, Jeff (1980). "On the Hodge theory of Riemannian pseudomanifolds". Geometry of the Laplace operator. Proc. Sympos. Pure Math. Vol. 36. Providence, R.I.: American Mathematical Society. pp. 91–146. MR 0573430.
  • Cheeger, Jeff (1979). "On the spectral geometry of spaces with cone-like singularities". Proc. Natl. Acad. Sci. U.S.A. 76 (5): 2103–2106. Bibcode:1979PNAS...76.2103C. doi:10.1073/pnas.76.5.2103. MR 0530173. PMC 383544. PMID 16592646.
  • Cheeger, J.; Goresky, M.; MacPherson, R. "L2 cohomology and intersection homology for singular algebraic varieties". Seminar on Differential Geometry. Annals of Mathematics Studies. Vol. 102. pp. 303–340. MR 0645745.
  • Mark Goresky, L2 cohomology is intersection cohomology
  • Frances Kirwan, Jonathan Woolf An Introduction to Intersection Homology Theory,, chapter 6 ISBN 1-58488-184-4
  • Looijenga, Eduard (1988). "L2-cohomology of locally symmetric varieties". Compositio Mathematica. 67 (1): 3–20. MR 0949269.
  • Lück, Wolfgang (2002). L2-invariants: theory and applications to geometry and K-theory. Ergebnisse der Mathematik und ihrer Grenzgebiete. 3. Folge. A Series of Modern Surveys in Mathematics [Results in Mathematics and Related Areas. 3rd Series. A Series of Modern Surveys in Mathematics]. Vol. 44. Berlin: Springer-Verlag. ISBN 3-540-43566-2.
  • Saper, Leslie; Stern, Mark (1990). "L2-cohomology of arithmetic varieties". Annals of Mathematics. Second Series. 132 (1): 1–69. doi:10.2307/1971500. JSTOR 1971500. MR 1059935.
  • Zucker, Steven (1978). "Théorie de Hodge à coefficients dégénérescents". Compt. Rend. Acad. Sci. 286: 1137–1140.
  • Zucker, Steven (1979). "Hodge theory with degenerating coefficients: L2-cohomology in the Poincaré metric". Annals of Mathematics. 109 (3): 415–476. doi:10.2307/1971221. JSTOR 1971221.
  • Zucker, Steven (1982). "L2-cohomology of warped products and arithmetic groups". Inventiones Mathematicae. 70 (2): 169–218. Bibcode:1982InMat..70..169Z. doi:10.1007/BF01390727. S2CID 121348276.


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