Local Langlands conjectures


In mathematics, the local Langlands conjectures, introduced by, are part of the Langlands program. They describe a correspondence between the complex representations of a reductive algebraic group G over a local field F, and representations of the Langlands group of F into the L-group of G. This correspondence is not a bijection in general. The conjectures can be thought of as a generalization of local class field theory from abelian Galois groups to non-abelian Galois groups.

Local Langlands conjectures for GL1

The local Langlands conjectures for GL1 follow from local class field theory. More precisely the Artin map gives an isomorphism from the group GL1= K* to the abelianization of the Weil group. In particular irreducible smooth representations of GL1 are 1-dimensional as the group is abelian, so can be identified with homomorphisms of the Weil group to GL1. This gives the Langlands correspondence between homomorphisms of the Weil group to GL1 and
irreducible smooth representations of GL1.

Representations of the Weil group

Representations of the Weil group do not quite correspond to irreducible smooth representations of general linear groups. To get a bijection, one has to slightly modify the notion of a representation of the Weil group, to something called a Weil–Deligne representation. This consists of a representation of the Weil group on a vector space V together with a nilpotent endomorphism N of V such that wNw−1=||w||N, or equivalently a representation of the Weil–Deligne group. In addition the representation of the Weil group should have an open kernel, and should be semisimple.
For every Frobenius semisimple complex n-dimensional Weil–Deligne representations ρ of the Weil group of F there is an L-function L and a local ε-factor ε .

Representations of GL''n''(''F'')

The representations of GLn appearing in the local Langlands correspondence are smooth irreducible complex representations.
Smooth irreducible representations are automatically admissible.
The Bernstein–Zelevinsky classification reduces the classification of irreducible smooth representations to cuspidal representations.
For every irreducible admissible complex representation π there is an L-function L and a local ε-factor ε . More generally, if there are two irreducible admissible representations π and π' of general linear groups there are local Rankin–Selberg convolution L-functions L and ε-factors ε.
described the irreducible admissible representations of general linear groups over local fields.

Local Langlands conjectures for GL2

The local Langlands conjecture for GL2 of a local field says that there is a bijection π from 2-dimensional semisimple Deligne representations of the Weil group to irreducible smooth representations of GL2 that preserves L-functions, ε-factors, and commutes with twisting by characters of F*.
verified the local Langlands conjectures for GL2 in the case when the residue field does not have characteristic 2. In this case the representations of the Weil group are all of cyclic or dihedral type. classified the smooth irreducible representations of GL2 when F has odd residue characteristic, and claimed incorrectly that the classification for even residue characteristic differs only insignifictanly from the odd residue characteristic case.
pointed out that when the residue field has characteristic 2, there are some extra exceptional 2-dimensional representations of the Weil group whose image in PGL2 is of tetrahedral or octahedral type.
proved the local Langlands conjectures for the general linear group GL2 over the 2-adic numbers, and over local fields containing a cube root of unity.
proved the local Langlands conjectures for the general linear group GL2 over all local fields.
and gave expositions of the proof.

Local Langlands conjectures for GL''n''

The local Langlands conjectures for general linear groups state that there are unique bijections π ↔ ρπ from equivalence classes of irreducible admissible representations π of GLn to equivalence classes of continuous Frobenius semisimple complex n-dimensional Weil–Deligne representations ρπ of the Weil group of F, that preserve L-functions and ε-factors of pairs of representations, and coincide with the Artin map for 1-dimensional representations. In other words,
proved the local Langlands conjectures for the general linear group GLn for positive characteristic local fields K. gave an exposition of their work.
proved the local Langlands conjectures for the general linear group GLn for characteristic 0 local fields K. gave another proof. and gave expositions of their work.

Local Langlands conjectures for other groups

and discuss the Langlands conjectures for more general groups. The Langlands conjectures for arbitrary reductive groups G are more complicated to state than the ones for general linear groups, and it is unclear what the best way of stating them should be. Roughly speaking, admissible representations of a reductive group are grouped into disjoint finite sets called L-packets, which should correspond to some classes of homomorphisms, called L-parameters, from the local Langlands group to the L-group of G. Some earlier versions used the Weil−Deligne group or the Weil group instead of the local Langlands group, which gives a slightly weaker form of the conjecture.
proved the Langlands conjectures for groups over the archimedean local fields R and C by giving the Langlands classification of their irreducible admissible representations, or, equivalently, of their irreducible -modules.
proved the local Langlands conjectures for the symplectic similitude group GSp and used that in to deduce it for the symplectic group Sp.