Available in electronic format
Available in print format		 Journal of the American Mathematical Society
Journal of the American Mathematical Society
ISSN: 1088-6834(e) ISSN: 0894-0347(p)
Previous issue | Table of contents | Next issue
Articles in press | Recently posted articles | Most recent issue | All issues
Previous Article | Next Article
     

Generalized group characters and complex oriented cohomology theories

Author(s): Michael J. Hopkins; Nicholas J. Kuhn; Douglas C. Ravenel
Journal: J. Amer. Math. Soc. 13 (2000), 553-594.
MSC (2000): Primary 55N22; Secondary 55N34, 55N91, 55R35, 57R85
Posted: April 26, 2000
Retrieve article in: PDF
This article is available free of charge

Abstract | References | Similar articles | Additional information

Abstract: Let $BG$ be the classifying space of a finite group $G$. Given a multiplicative cohomology theory $E^{*}$, the assignment

\begin{displaymath}G \longmapsto E^{*}(BG) \end{displaymath}

is a functor from groups to rings, endowed with induction (transfer) maps. In this paper we investigate these functors for complex oriented cohomology theories $E^{*}$, using the theory of complex representations of finite groups as a model for what one would like to know.

An analogue of Artin's Theorem is proved for all complex oriented $E^*$: the abelian subgroups of $G$ serve as a detecting family for $E^*(BG)$, modulo torsion dividing the order of $G$.

When $E^*$ is a complete local ring, with residue field of characteristic $p$and associated formal group of height $n$, we construct a character ring of class functions that computes $\frac{1}{p}E^*(BG)$. The domain of the characters is $G_{n,p}$, the set of $n$-tuples of elements in $G$ each of which has order a power of $p$. A formula for induction is also found. The ideas we use are related to the Lubin-Tate theory of formal groups. The construction applies to many cohomology theories of current interest: completed versions of elliptic cohomology, $E_n^*$-theory, etc.

The $n$th Morava K-theory Euler characteristic for $BG$ is computed to be the number of $G$-orbits in $G_{n,p}$. For various groups $G$, including all symmetric groups, we prove that $K(n)^*(BG)$ is concentrated in even degrees.

Our results about $E^*(BG)$ extend to theorems about $E^*(EG\times_G X)$, where $X$ is a finite $G$-CW complex.

References:

[Ada74]
J. F. Adams.
Stable Homotopy and Generalised Homology.
University of Chicago Press, Chicago, 1974. MR 53:6534

[Ada78]
J. F. Adams.
Infinite Loop Spaces.
Number 90 in Annals of Mathematics Studies. Princeton University Press, Princeton, 1978. MR 80d:55001

[Ada82]
J. F. Adams.
Prerequisites (on equivariant stable homotopy) for Carlsson's Lecture.
Springer Lecture Notes in Math., 1051:483-532, 1982. MR 86f:57037

[Ara82]
S. Araki.
Equivariant stable homotopy theory and idempotents of Burnside rings.
Publ. RIMS, pages 1193-1212, 1982. MR 84g:57035

[Atiyah]
M. F. Atiyah.
Characters and cohomology of finite groups.
Inst. Hautes Études Sci. Publ. Math., 9:23-64, 1961. MR 26:6228
[Ati67]
M. F. Atiyah.
K-theory.
Benjamin Press, New York, 1967. MR 36:7130

[AS89]
M. F. Atiyah and G. Segal.
On equivariant Euler characteristics.
J. Geom. Phys., 6:671-677, 1989. MR 92c:19005

[BW89]
A. Baker and U. Würgler.
Liftings of formal groups and the Artinian completion of $v_n^{-1}BP$.
Math. Proc. Camb. Phil. Soc., 106:511-530, 1989. MR 90i:55008

[Bak98]
A. Baker.
Hecke algebras acting on elliptic cohomology.
In Homotopy via algebraic geometry and group representations (Evanston, IL, 1997), A.M.S. Cont. Math. Series 220:17-26, 1998. MR 99h:55004

[BT]
R. Bott and C. Taubes.
On the rigidity theorems of Witten.
J.A.M.S., 2:137-186, 1989. MR 89k:58270

[Die72]
T. tom Dieck.
Kobordismentheorie klassifizierender Räume und Transformationsgruppen,
Math. Zeit., 126:31-39, 1972. MR 45:7744

[Die79]
T. tom Dieck.
Transformation Groups and Representation Theory, volume 766 of Lecture Notes in Mathematics.
Springer-Verlag, New York, 1979. MR 82c:57025

[TtD:87]
T. tom Dieck.
Transformation Groups, volume 8 of de Gruyer Studies in Mathematics.
de Gruyer, New York, 1987. MR 89c:57048

[Haz78]
M. Hazewinkel.
Formal Groups and Applications.
Academic Press, New York, 1978. MR 82a:14020

[Hop89]
M. J. Hopkins.
Characters and elliptic cohomology.
In S. M. Salamon, B. Steer, and W. A. Sutherland, editors, Advances in Homotopy, volume 139 of London Mathematical Society Lecture Note Series, pages 87-104, Cambridge, 1989. Cambridge University Press. MR 91c:55007
[HKR92]
M. J. Hopkins, N. J. Kuhn, and D. C. Ravenel.
Morava $K$-theories of classifying spaces and generalized characters for finite groups.
Algebraic Topology (San Feliu de Guixols, 1990), Springer Lecture Notes in Math., 1509:186-209, 1992. MR 93k:55008

[Hun90]
J. R. Hunton.
The Morava $K$-theories of wreath products.
Math. Proc. Cambridge Phil. Soc., 107:309-318, 1990. MR 91a:55004

[Ill74]
S. Illman.
Whitehead torsion and group actions.
Ann. Acad. Sc. Fennicae, 588, 1974. MR 51:1407

[Kri97]
I. Kriz.
Morava $K$-theory of classifying spaces: some calculations.
Topology, 36:1247-1273, 1997. MR 99a:55016

[KL98]
I. Kriz and K. P. Lee.
Odd degree elements in the Morava $K(n)$ cohomology of finite groups.
Preprint, 1998. To appear in Topology and its applications.

[Kuhn1]
N. J. Kuhn.
Morava K-theories of some classifying spaces.
Transactions of the American Mathematical Society, 304:193-205, 1987. MR 89d:55013

[Kuh89]
N. J. Kuhn.
Character rings in algebraic topology.
In S. M. Salamon, B. Steer, and W. A. Sutherland, editors, Advances in Homotopy, volume 139 of London Mathematical Society Lecture Note Series, pages 111-126, Cambridge, 1989. Cambridge University Press. MR 91g:55023

[Lai79]
E. Laitinen.
On the Burnside ring and stable cohomotopy of a finite group.
Math. Scand., 44:37-72, 1979. MR 80k:55030

[Lan71]
P. S. Landweber.
Complex cobordism of classifying spaces.
Proceedings of the American Mathematical Society, 27:175-179, 1971. MR 42:3782

[LRS]
P. S. Landweber, D. C. Ravenel, and R. E. Stong.
Periodic cohomology theories defined by elliptic curves.
In The Cech centennial (Boston, MA, 1993), A.M.S. Cont. Math. Series 181:317-337, 1995. MR 96i:55009

[Lan78]
S. Lang.
Cyclotomic Fields.
Graduate Texts in Mathematics. Springer-Verlag, New York, 1978. MR 58:5578

[LMS86]
L. G. Lewis, J. P. May, and M. Steinberger.
Equivariant Stable Homotopy Theory, volume 1213 of Lecture Notes in Mathematics.
Springer-Verlag, New York, 1986. MR 88e:55002

[LT65]
J. Lubin and J. Tate.
Formal complex multiplication in local fields.
Annals of Mathematics, 81:380-387, 1965. MR 30:3094

[Mor78]
J. Morava.
Completions of complex cobordism.
In M.G.Barrett and M.E.Mahowald, editors, Geometric Applications of Homotopy Theory II, Springer Lect. Notes Math. 658:349-361, 1978. MR 80i:57026

[Mor88]
J. Morava.
Some Weil representations motivated by algebraic topology.
In P.S. Landweber, editor, Elliptic Curves and Modular Forms in Algebraic Topology, Springer Lect. Notes Math. 1326:94-106, 1988. MR 91a:57021

[Qui71]
D. G. Quillen.
The spectrum of an equivariant cohomology ring, I and II.
Annals of Mathematics, 94:549-602, 1971. MR 45:7743

[Rav82]
D. C. Ravenel.
Morava K-theories and finite groups.
In S. Gitler, editor, Symposium on Algebraic Topology in Honor of José Adem, Contemporary Mathematics, pages 289-292, Providence, Rhode Island, 1982. American Mathematical Society. MR 83m:55009

[Rav86]
D. C. Ravenel.
Complex Cobordism and Stable Homotopy Groups of Spheres.
Academic Press, New York, 1986. MR 87j:55003

[RW80]
D. C. Ravenel and W. S. Wilson.
The Morava $K$-theories of Eilenberg-MacLane spaces and the Conner-Floyd conjecture.
American Journal of Mathematics, 102:691-748, 1980. MR 81i:55005

[Seg68:1]
G. Segal.
Classifying spaces and spectral sequences.
Inst. Hautes Études Sci. Publ. Math., 34:105-112, 1968. MR 38:718

[Seg68:2]
G. Segal.
Equivariant K-theory.
Inst. Hautes Études Sci. Publ. Math., 34:129-151, 1968. MR 38:2769

[Seg71]
G. Segal.
Equivariant stable homotopy theory.
Actes Congr. Internat. Math., 2:59-63, 1970. MR 54:11319

[Serre]
J.-P. Serre.
Représentations Linéaires des Groupes Finis.
Hermann, Paris, 1967. MR 38:1190

[Stre81]
C. Stretch.
Stable cohomotopy and cobordism of abelian groups.
Math. Proc. Cambridge Phil. Soc., 90:273-278, 1981. MR 82h:55015

[Stri98]
N. P. Strickland.
Morava $E$-theory of symmetric groups.
Topology, 37:757-779, 1998. MR 99e:55008; correction MR 2000a:55010

[Tan95]
M. Tanabe.
On Morava $K$-theories of Chevalley groups.
Amer. J. Math., 117:263-278, 1995. MR 95m:55010

[Tau]
C. Taubes.
${S}\sp{1}$-actions and elliptic genera.
Comm. Math. Phys., 122:455-526, 1989. MR 90f:58167

[TY]
M. Tezuka and N. Yagita.
Cohomology of finite groups and Brown-Peterson cohomology.
In Algebraic Topology (Arcata, CA, 1986), Springer L.N.Math. 1370:396-408, 1989. MR 90i:55011

[Wur86]
U. Würgler.
Commutative ring spectra of characteristic $2$.
Comm. Math. Helv., 61:33-45, 1986. MR 87i:55008

Similar Articles:

Retrieve articles in Journal of the American Mathematical Society with MSC (2000): 55N22, 55N34, 55N91, 55R35, 57R85

Retrieve articles in all Journals with MSC (2000): 55N22, 55N34, 55N91, 55R35, 57R85

Additional Information:

Michael J. Hopkins
Affiliation: Department of Mathematics, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139
Email: mjh@math.mit.edu

Nicholas J. Kuhn
Affiliation: Department of Mathematics, University of Virginia, Charlottesville, Virginia 22903
Email: njk4x@virginia.edu

Douglas C. Ravenel
Affiliation: Department of Mathematics, University of Rochester, Rochester, New York 14627
Email: drav@math.rochester.edu

DOI: 10.1090/S0894-0347-00-00332-5
PII: S 0894-0347(00)00332-5
Received by editor(s): July 20, 1999
Received by editor(s) in revised form: January 28, 2000
Posted: April 26, 2000
Additional Notes: All three authors were partially supported by the National Science Foundation.
Copyright of article: Copyright 2000, American Mathematical Society

  AMS Website Logo Small Comments: webmaster@ams.org
© Copyright 2009, American Mathematical Society
Privacy Statement 		Search the AMSPowered by Google