Logo
ScienceStack
Table of Contents
Fetching ...
Sign In

A vanishing theorem for residual Eisenstein cohomology

Sam Mundy

Abstract

We study the residual Eisenstein cohomology of semisimple groups in the context of maximal parabolic subgroups which remain maximal over $\mathbb{R}$. Under certain general hypotheses, we show that these residual representations are cohomological one degree below middle, and one above; however, the classes above middle vanish in the full automorphic cohomology. The proof of this vanishing finds an explicit cochain which provides a primitive to the image of a nontrivial class from the cohomology of such a residual representation. This cochain is valued in regular Eisenstein series. Along the way, we study in detail the archimedean component of the relevant induced representation. In particular, we prove that it has a subrepresentation which is the sum of two discrete series, whose Harish-Chandra parameters we describe, and that the intertwining operator vanishes to order exactly $1$ on that subrepresentation.

A vanishing theorem for residual Eisenstein cohomology

Abstract

We study the residual Eisenstein cohomology of semisimple groups in the context of maximal parabolic subgroups which remain maximal over . Under certain general hypotheses, we show that these residual representations are cohomological one degree below middle, and one above; however, the classes above middle vanish in the full automorphic cohomology. The proof of this vanishing finds an explicit cochain which provides a primitive to the image of a nontrivial class from the cohomology of such a residual representation. This cochain is valued in regular Eisenstein series. Along the way, we study in detail the archimedean component of the relevant induced representation. In particular, we prove that it has a subrepresentation which is the sum of two discrete series, whose Harish-Chandra parameters we describe, and that the intertwining operator vanishes to order exactly on that subrepresentation.
Paper Structure (12 sections, 34 theorems, 350 equations)

This paper contains 12 sections, 34 theorems, 350 equations.

Table of Contents

  1. The $SL_2$ case
  2. Results at the archimedean place
  3. Setup: Groups and Lie algebras
  4. Setup: Discrete series
  5. Standard modules
  6. $(\mathfrak{g},K)$-cohomology
  7. Intertwining operators
  8. An alternate setup
  9. Maximal parabolic Eisenstein series
  10. Preliminaries on Eisenstein series
  11. The main theorem
  12. Examples

Key Result

Theorem A

Let the notation be as above, including assumptions eqnassumption1-eqnassumption5. Assume in addition that: Let us write $d=\frac{1}{2}\dim(\mathcal{G}(\mathbb{R})/K_\infty^\circ)$ (which is middle degree). Then:

Theorems & Definitions (59)

  • Theorem A
  • Theorem B
  • Theorem C
  • Theorem D
  • Theorem 1.1.1
  • Proposition 1.1.2
  • Theorem 2.2.1: Schmid, Blank
  • Proposition 2.3.1
  • proof
  • Theorem 2.3.2
  • ...and 49 more