Difference between revisions of "Genus of an element of an arithmetic group"

The set of elements of the group $G_\mathbf Z$ of units of a connected algebraic $\mathbf Q$-group $G$ that are conjugate to a given element $a$ in the groups $G_\mathbf Q$ and $G_{\mathbf Z_p}$ for all primes $p$, where $\mathbf Q$ and $\mathbf Z_p$ are the field of rational numbers and the ring of $p$-adic integers, respectively. The class of the element $a$ is defined as its conjugacy class in $G_\mathbf Z$. The number of disjoint classes into which the genus of an element $a$ decomposes is finite [[#References|[1]]], is denoted by $f_G(a)$, and is called the number of classes in the genus of the element $a$. The function $f_G$ on $G_\mathbf Z$ arising here is an important arithmetic characteristic expressing the deviation from the local-global principle in questions of conjugacy. In general, $f_G(a)>1$. Moreover, if the group $G$ is semi-simple and the group $G_\mathbf Z$ is infinite, then $\sup_{a\in H}f_G(a)=\infty$ for any arithmetic subgroup $H\subset G_\mathbf Z$ (see [[#References|[1]]], [[#References|[3]]]). The notions considered are a natural modification of the corresponding classical concepts in the theory of quadratic forms and are used in studies of residual approximability of arithmetic groups relative to conjugacy (see [[#References|[2]]]).