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On the Fundamental Lemma for Standard Endoscopy: Reduction to Unit Elements

Published online by Cambridge University Press:  20 November 2018

Thomas C. Hales*
Affiliation:
University of Michigan, Ann Arbor, Michigan, U.S.A.
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Abstract

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The fundamental lemma for standard endoscopy follows from the matching of unit elements in Hecke algebras. A simple form of the stable trace formula, based on the matching of unit elements, shows the fundamental lemma to be equivalent to a collection of character identities. These character identities are established by comparing them to a compact-character expansion of orbital integrals.

Keywords

Type
Research Article
Copyright
Copyright © Canadian Mathematical Society 1995

Footnotes

I would like to thank R. Kottwitz for guiding me repeatedly in the right direction on this project. I would also like to thank G. Henniart for explaining the method of Section 5 to me and L. Clozel for providing an argument at the archimedean places.

References

[Al] Arthur, J., A trace formula for reductive groups I, Duke Math. J. (4) 45(1978), 911953.Google Scholar
[A2] Arthur, J., On elliptic tempered characters, Acta Math. (1) 171(1993), 73138.Google Scholar
[B] Borel, A., Automorphic L-functions. In: Automorphic Forms, Representations and L-functions, Proc. Sympos. Pure Math. (2) 33, Amer. Math. Soc., Providence, Rhode Island, 1979.Google Scholar
[BJ] Borel, A. and Jacquet, H., Automorphic forms and automorphic representations. In: Automorphic Forms, Representations and L-functions, Proc. Sympos. Pure Math. (1) 33, Amer. Math. Soc, Providence, Rhode Island, 1979.Google Scholar
[C] Carter, R., Finite Groups of Lie Type: Conjugacy Classes and Complex Characters, Wiley Interscience, New York, 1986.Google Scholar
[Cil] Clozel, L., Orbital integrals on p-adic groups: A proof of the Howe conjecture, Ann. of Math. (2) 129(1989), 237251.Google Scholar
[CI2] Clozel, L., The fundamental lemma for stable base change, Duke Math. J. (1) 61(1990), 255302.Google Scholar
[CD] Clozel, L. and Delorme, P., Le Théorème de Paley-Wiener invariantpour les groupes de Lie réductifs, Inv. Math. 77(1984), 427-453.Google Scholar
[G] Gérardin, P., Construction de séries discrètes p-adiques, Lecture Notes in Math. 462, Springer, 1975.Google Scholar
[HI] Hales, T.C., Unipotent Representations and Unipotent Classes in, SL(n), Amer. J. Math. (6) 115(1993), 13471383.Google Scholar
[H2] Hales, T.C., A Simple Definition of Transfer Factors for Unramified Groups, Contemp. Math. 145(1993), 109134.Google Scholar
[He] Henniart, G., La conjecture de Langlands locale pour, GL(3), Mem. Soc. Math. France (N.S.) 11— 12(1984).Google Scholar
[Ka] Kazhdan, D., On Lifting. In: Lie Group Representations II, Lecture Notes in Math. 1041, 1984.Google Scholar
[Ke] Keys, D., Reducibility of Unramified Unitary Principal Series Representations of p-adic Groups and Class-1 Representations, Math. Ann. 259- 260(1982), 397402.Google Scholar
[Kn] Knapp, A.W., Representation Theory of Semisimple Groups, Princeton, New Jersey, 1986.Google Scholar
[Kol] Kottwitz, R., Rational Conjugacy Classes in Reductive Groups, Duke Math. J. (4) 49(1982).Google Scholar
[Ko2] Kottwitz, R., Stable trace formula: cuspidal tempered terms, Duke Math. J. (3) 51(1984), 611650.Google Scholar
[Ko3] Kottwitz, R., Stable Trace Formula: Elliptic Singular Terms, Math. Ann. 275(1986), 365399.Google Scholar
[KR] Kottwitz, R. and Rogawski, J., The distributions in the invariant trace formula are supported on characters, preprint.Google Scholar
[KSI] Kottwitz, R. and Shelstad, D., Twisted Endoscopy I: Definitions, Norm Mappings and Transfer Factors, preprint.Google Scholar
[KS2] Kottwitz, R., Twisted Endoscopy II: Basic Global Theory, preprint.Google Scholar
[L] Langlands, R.P., Les débuts d'une formule des traces stable, Publ. Math. Univ. Paris VII, 1983.Google Scholar
[La] Labesse, J.-P., Fonctions élémentaires et lemme fondamental pour le changement de base stable, Duke Math. J. (2) 61(1990), 519530.Google Scholar
[LSI] Langlands, R. and Shelstad, D., On the definition of transfer factors, Math. Ann. 278(1987), 219271.Google Scholar
[LS2] Langlands, R., Descent for transfer factors. In: The Grothendieck festschrift, Progr. Math., Birkhäuser, 1990.Google Scholar
[M] MacDonald, I.G., Spherical Functions on a group of p-adic type, Ramanujan Institute, 1971.Google Scholar
[S] Sansuc, J.-J., Groupe de Brauer et arithmétique des groupes algébriques linéaires sur un corps de nombres,, J. Reine Angew. Math. 327(1981), 1280.Google Scholar
[Shl] Shelstad, D., Embeddings ofL-groups, Canad. J. Math. (3) 33(1981), 513558.Google Scholar
[Sh2] Shelstad, D., Characters and Inner forms of a quasi-split group over ℝ, Compositio Math. (1) 39(1979), 1145.Google Scholar
[Sh3] Shelstad, D., L-indistinguishability for Real Groups, Math. Ann. 259(1982), 385430.Google Scholar
[Sh4] Shelstad, D., Orbital Integrals, Endoscopic Groups, and L-indistinguishability for Real Groups., In: Journées Automorphes, Publ. Math. Univ. Paris VII 15(1983), 135219.Google Scholar
[Vi] Vignéras, M.-F., Caractérisation des intégrales orbitales sur un groupe réductifp-adique, J. Fac. Sci. Univ. Tokyo Sect 1A Math. 28(1981), 945961.Google Scholar
[Vo] Vogan, D., Representations of Real Reductive Groups, Birkhäuser, Boston, 1981.Google Scholar
[W] Waldspurger, J.-L., Sur les intégrales orbitales tordues pour les groupes linéaires: un lemme fondamental,, Canad. J. Math.(4) 43(1991), 852896.Google Scholar