In the mathematical theory of automorphic forms, the fundamental lemma relates orbital integrals on a reductive group over a local field to stable orbital integrals on its endoscopic groups. It was conjectured by in the course of developing the Langlands program. The fundamental lemma was proved by Gérard Laumon and Ngô Bảo Châu in the case of unitary groups and then by for general reductive groups, building on a series of important reductions made by Jean-Loup Waldspurger to the case of Lie algebras. Time magazine placed Ngô's proof on the list of the "Top 10 scientific discoveries of 2009".[1] In 2010, Ngô was awarded the Fields Medal for this proof.
Langlands outlined a strategy for proving local and global Langlands conjectures using the Arthur–Selberg trace formula, but in order for this approach to work, the geometric sides of the trace formula for different groups must be related in a particular way. This relationship takes the form of identities between orbital integrals on reductive groups G and H over a nonarchimedean local field F, where the group H, called an endoscopic group of G, is constructed from G and some additional data.
The first case considered was
G={\rmSL}2
The fundamental lemma states that an orbital integral O for a group G is equal to a stable orbital integral SO for an endoscopic group H, up to a transfer factor Δ :
SO | |
\gammaH |
(1 | |
KH |
)=\Delta(\gammaH,\gamma
\kappa | |
\gammaG |
(1 | |
KG |
)
proved the fundamental lemma for Archimedean fields.
verified the fundamental lemma for general linear groups.
and verified some cases of the fundamental lemma for 3-dimensional unitary groups.
and verified the fundamental lemma for the symplectic and general symplectic groups Sp4, GSp4.
A paper of George Lusztig and David Kazhdan pointed out that orbital integrals could be interpreted as counting points on certain algebraic varieties over finite fields. Further, the integrals in question can be computed in a way that depends only on the residue field of F; and the issue can be reduced to the Lie algebra version of the orbital integrals. Then the problem was restated in terms of the Springer fiber of algebraic groups.[5] The circle of ideas was connected to a purity conjecture; Laumon gave a conditional proof based on such a conjecture, for unitary groups. then proved the fundamental lemma for unitary groups, using Hitchin fibration introduced by, which is an abstract geometric analogue of the Hitchin system of complex algebraic geometry. showed for Lie algebras that the function field case implies the fundamental lemma over all local fields, and showed that the fundamental lemma for Lie algebras implies the fundamental lemma for groups.
{\rmU}3
{\rmSL}n
{\rmSp}4