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Decomposition of Splitting Invariants in Split Real Groups

Published online by Cambridge University Press:  20 November 2018

Tasho Kaletha
Tasho Kaletha*
Affiliation:
University of Chicago, Chicago, IL 60637 USA email: [email protected]
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Abstract

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For a maximal torus in a quasi-split semi-simple simply-connected group over a local field of characteristic 0, Langlands and Shelstad constructed a cohomological invariant called the splitting invariant, which is an important component of their endoscopic transfer factors. We study this invariant in the case of a split real group and prove a decomposition theorem which expresses this invariant for a general torus as a product of the corresponding invariants for simple tori. We also show how this reduction formula allows for the comparison of splitting invariants between different tori in the given real group.

Keywords

11F7022E4711S3711F7217B22endoscopyreal lie groupsplitting invarianttransfer factor
Type
Research Article
Information
Canadian Journal of Mathematics , Volume 63 , Issue 5 , 18 October 2011 , pp. 1083 - 1106
Copyright
Copyright © Canadian Mathematical Society 2011

References

[1] Agaoka, Y. and E. Kaneda, Strongly orthogonal subsets in root systems. Hokkaido Math. J. 31(2002), no. 1, 107136.Google Scholar
[2] Bourbaki, N., Lie groups and Lie algebras. Springer-Verlag, Berlin, 2002.Google Scholar
[3] Kaletha, T., Endoscopic character identities for depth-zero supercuspidal L-packets. arXiv:0909.1533v1.Google Scholar
[4] Langlands, R. P., Orbital integrals on forms of SL(3). I. Amer. J. Math. 105(1983), no. 2, 465506. doi:10.2307/2374265Google Scholar
[5] Langlands, R. P. and D. Shelstad, On the definition of transfer factors. Math. Ann. 278(1987), no. 1-4, 219–271. doi:10.1007/BF01458070Google Scholar
[6] Langlands, R. P. and D. Shelstad, Descent for transfer factors. In: The Grothendieck Festschrift, Vol. II. Progr. Math. 87. Birkhäuser Boston, Boston, MA, 1990, pp. 485–563.Google Scholar
[7] Demazure, M. and A. Grothendieck, SGA III. Lecture Notes in Mathematics 151. Springer-Verlag, Berlin, 1970.Google Scholar
[8] Shelstad, D., Characters and inner forms of a quasi-split group over R. Compositio Math. 39(1979), no. 1, 1145.Google Scholar
[9] Shelstad, D., Orbital integrals and a family of groups attached to a real reductive group. Ann. Sci. École Norm. Sup. 12(1979), no. 1, 131.Google Scholar
[10] Shelstad, D., Embeddings of L-groups. Canad. J. Math. 33(1981), no. 3, 513558. doi:10.4153/CJM-1981-044-4Google Scholar
[11] Shelstad, D., L-indistinguishability for real groups. Math. Ann. 259(1982), no. 3, 385430. doi:10.1007/BF01456950Google Scholar
[12] Shelstad, D., A formula for regular unipotent germs. Orbites unipotentes et reprèsentations, II. Astérisque No. 171-172 (1989), 275–277.Google Scholar
[13] Shelstad, D., Tempered endoscopy for real groups. I. Geometric transfer with canonical factors. In: Representation Theory of Real Reductive Lie Groups. Contemp. Math. 472. American Mathematical Society, Providence, RI, 2008, pp. 215–246.Google Scholar
[14] Shelstad, D., Tempered endoscopy for real groups. II. Spectral transfer factors. In: Automorphic Forms and the Langlands Program. Adv. Lect. Math. (ALM) 9. Int. Press, Somerville, MA, 2010, pp. 236–276.Google Scholar
[15] Shelstad, D., Tempered endoscopy for real groups. III. Inversion of transfer and L-packet structure. Represent. Theory 12(2008), 369–402. doi:10.1090/S1088-4165-08-00337-3Google Scholar
[16] Springer, T. A., Linear Algebraic Groups. Progress in Mathematics 9. Birkhäuser, Boston, MA, 1981.Google Scholar