Real adjoint orbits of the unipotent subgroup

Abstract: Let $G$ be a linear Lie group that acts on it's Lie algebra $\mathfrak{g}$ by the adjoint action: $\mathrm{Ad}(g)X=gXg^{-1}$. An element $X\in \mathfrak {g}$ is called $\mathrm{Ad}G$-real if $-X = \mathrm{Ad}(g)X $ for some $g\in G$. An $\mathrm{Ad}_G$-real element $X$ is called strongly $\mathrm{Ad}_G $-real if $-X = \mathrm{Ad}(\tau) X $ for some involution $\tau\in G$. Let $K=\mathbb{R}$, $\mathbb{C}$ or $\mathbb{H}$. Let $\mathrm{U}_n(K)$ be the group of unipotent upper-triangular matrices over $K$. Let $\mathfrak{u}_n (K)$ be the Lie algebra of $\mathrm{U}_n(K)$ that consists of $n \times n$ upper triangular matrices with $0$ in all the diagonal entries. In this paper, we consider the $\mathrm{Ad}$-reality of the Lie algebra $ \mathfrak{u}_n(K) $ that comes from the adjoint action of the Lie group $\mathrm{U}_n(K)$ on $ \mathfrak{u}_n(K)$. We prove that there is no non-trivial $\mathrm{Ad}{\mathrm{ U}_n(K)}$-real element in $\mathfrak{u}_n (K)$. We also consider the adjoint action of the extended group $\mathrm{U}_n^\pm(K)$ that consists of all upper triangular matrices over $K$ having diagonal elements as $1$ or $-1$, and construct a large class of $\mathrm{Ad} _{\mathrm{ U}_n^\pm( K)} $-real elements. As applications of these results, we recover related results concerning classical reality in these groups.