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Reducibility of commuting varieties of elements of simple Lie algebra

Nikola Kovačević

Abstract

In this paper, we prove that the variety $C_m(L)$ of commuting $m$-tuples of elements of simple Lie algebra $L$ is often reducible. Explicitely, we prove it is reducible for all simple Lie algebra $L$ not isomorphic to $\mathfrak{sl}_2$ and $\mathfrak{sl})_3$, and all $m \geq 4$. We also prove it is reducible for $C_3(L)$ for $L$ of types $B_k,C_k,E_7,E_8,F_4,G_2$, $k \geq 2$, as well as for $D_l$ for $l \geq 10$. We do this by proving Theorem on Adding Diagonals, that says that if we can find a simple Lie subalgebra $L'$ whose Dynkin diagram is a subdiagram of the Dynkin diagram of $L$, then under mild conditions, from the fact that $C_m(L')$ is reducible, it follows that $C_m(L)$ is also reducible.

Reducibility of commuting varieties of elements of simple Lie algebra

Abstract

In this paper, we prove that the variety of commuting -tuples of elements of simple Lie algebra is often reducible. Explicitely, we prove it is reducible for all simple Lie algebra not isomorphic to and , and all . We also prove it is reducible for for of types , , as well as for for . We do this by proving Theorem on Adding Diagonals, that says that if we can find a simple Lie subalgebra whose Dynkin diagram is a subdiagram of the Dynkin diagram of , then under mild conditions, from the fact that is reducible, it follows that is also reducible.
Paper Structure (13 sections, 28 theorems, 148 equations)

This paper contains 13 sections, 28 theorems, 148 equations.

Table of Contents

  1. Introduction
  2. Preliminaries
  3. Notation
  4. Basic results about simple Lie algebras and algebraic groups
  5. Tools from algebraic geometry
  6. Basic results about $C_m(L)$
  7. Theorem on Adding Diagonals
  8. Application of Theorem on Adding Diagonals to reducibility of $C_m(L)$
  9. Reducibility of $C_m(L)$ for $m \geq 4$ and $L$ of types $A,D,E$
  10. Reducibility of $C_{m}(L)$ for $L$ of types $B,C,F$, and $m \geq 3$
  11. Reducibility of $C_{m}(L)$ for $L$ of type $G_{2}$
  12. Reducibility of $C_{3}(L)$ for $L$ of type $D_l$ with $l \geq 10$
  13. Reducibility of $C_{m}(L)$ for $L$ of type $E_{7}$ and $E_{8}$

Key Result

Theorem 1.1

Let $L$ be a simple Lie algebra. Then $C_m(L)$ is reducible in the following cases: (1) $m \geq 4$ and $L$ not isomorphic to $\mathfrak{sl}_2$ or $\mathfrak{sl}_3$. (2) $m = 3$, and $L$ of type $B_k,C_k,E_7,E_8,F_4,G_2$ or $D_l$ with $l \geq 10$.

Theorems & Definitions (46)

  • Theorem 1.1
  • Proposition 2.1
  • Corollary 2.2
  • Lemma 2.3
  • proof
  • Definition 2.4
  • Lemma 2.5
  • Lemma 2.6
  • Lemma 2.7
  • proof
  • ...and 36 more