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Bibliographic Details
Main Author: Romano, Beth
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2304.12142
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author Romano, Beth
author_facet Romano, Beth
contents A paper of Reeder-Yu gives a construction of epipelagic supercuspidal representations of $p$-adic groups. The input for this construction is a pair $(λ, χ)$ where $λ$ is a stable vector in a certain representation coming from a Moy-Prasad filtration, and $χ$ is a character of the additive group of the residue field. We say two such pairs are equivalent if the resulting supercuspidal representations are isomorphic. In this paper we describe the equivalence classes of such pairs. As an application, we give a classification of the simple supercuspidal representations for split adjoint groups. Finally, under an assumption about unramified base change, we describe properties of the Langlands parameters associated to these simple supercuspidals, showing that they have trivial L-functions and minimal Swan conductors, and showing that each of these simple supercuspidals lies in a singleton L-packet.
format Preprint
id arxiv_https___arxiv_org_abs_2304_12142
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle On input and Langlands parameters for epipelagic representations
Romano, Beth
Representation Theory
Number Theory
A paper of Reeder-Yu gives a construction of epipelagic supercuspidal representations of $p$-adic groups. The input for this construction is a pair $(λ, χ)$ where $λ$ is a stable vector in a certain representation coming from a Moy-Prasad filtration, and $χ$ is a character of the additive group of the residue field. We say two such pairs are equivalent if the resulting supercuspidal representations are isomorphic. In this paper we describe the equivalence classes of such pairs. As an application, we give a classification of the simple supercuspidal representations for split adjoint groups. Finally, under an assumption about unramified base change, we describe properties of the Langlands parameters associated to these simple supercuspidals, showing that they have trivial L-functions and minimal Swan conductors, and showing that each of these simple supercuspidals lies in a singleton L-packet.
title On input and Langlands parameters for epipelagic representations
topic Representation Theory
Number Theory
url https://arxiv.org/abs/2304.12142