A characterization of Fuchsian groups acting on complex hyperbolic spaces

Fu, Xi, Li, Liulan, and Wang, Xiantao. "A characterization of Fuchsian groups acting on complex hyperbolic spaces." Czechoslovak Mathematical Journal 62.2 (2012): 517-525. <http://eudml.org/doc/246750>.

@article{Fu2012,
abstract = {Let $G\subset \{\bf SU\}(2,1)$ be a non-elementary complex hyperbolic Kleinian group. If $G$ preserves a complex line, then $G $ is $\mathbb \{C\}$-Fuchsian; if $ G $ preserves a Lagrangian plane, then $ G $ is $\mathbb \{R\}$-Fuchsian; $ G $ is Fuchsian if $ G $ is either $\mathbb \{C\}$-Fuchsian or $\mathbb \{R\}$-Fuchsian. In this paper, we prove that if the traces of all elements in $ G $ are real, then $ G $ is Fuchsian. This is an analogous result of Theorem V.G. 18 of B. Maskit, Kleinian Groups, Springer-Verlag, Berlin, 1988, in the setting of complex hyperbolic isometric groups. As an application of our main result, we show that $ G $ is conjugate to a subgroup of $\{\bf S\}(U(1)\times U(1,1))$ or $\{\bf SO\}(2,1)$ if each loxodromic element in $G $ is hyperbolic. Moreover, we show that the converse of our main result does not hold by giving a $\mathbb \{C\}$-Fuchsian group.},
author = {Fu, Xi, Li, Liulan, Wang, Xiantao},
journal = {Czechoslovak Mathematical Journal},
keywords = {$\mathbb \{R\}$-Fuchsian group; $\mathbb \{C\}$-Fuchsian group; complex line; $\mathbb \{R\}$-plane; trace; -Fuchsian group; -Fuchsian group; complex line; -plane; trace},
language = {eng},
number = {2},
pages = {517-525},
publisher = {Institute of Mathematics, Academy of Sciences of the Czech Republic},
title = {A characterization of Fuchsian groups acting on complex hyperbolic spaces},
url = {http://eudml.org/doc/246750},
volume = {62},
year = {2012},
}

TY - JOUR
AU - Fu, Xi
AU - Li, Liulan
AU - Wang, Xiantao
TI - A characterization of Fuchsian groups acting on complex hyperbolic spaces
JO - Czechoslovak Mathematical Journal
PY - 2012
PB - Institute of Mathematics, Academy of Sciences of the Czech Republic
VL - 62
IS - 2
SP - 517
EP - 525
AB - Let $G\subset {\bf SU}(2,1)$ be a non-elementary complex hyperbolic Kleinian group. If $G$ preserves a complex line, then $G $ is $\mathbb {C}$-Fuchsian; if $ G $ preserves a Lagrangian plane, then $ G $ is $\mathbb {R}$-Fuchsian; $ G $ is Fuchsian if $ G $ is either $\mathbb {C}$-Fuchsian or $\mathbb {R}$-Fuchsian. In this paper, we prove that if the traces of all elements in $ G $ are real, then $ G $ is Fuchsian. This is an analogous result of Theorem V.G. 18 of B. Maskit, Kleinian Groups, Springer-Verlag, Berlin, 1988, in the setting of complex hyperbolic isometric groups. As an application of our main result, we show that $ G $ is conjugate to a subgroup of ${\bf S}(U(1)\times U(1,1))$ or ${\bf SO}(2,1)$ if each loxodromic element in $G $ is hyperbolic. Moreover, we show that the converse of our main result does not hold by giving a $\mathbb {C}$-Fuchsian group.
LA - eng
KW - $\mathbb {R}$-Fuchsian group; $\mathbb {C}$-Fuchsian group; complex line; $\mathbb {R}$-plane; trace; -Fuchsian group; -Fuchsian group; complex line; -plane; trace
UR - http://eudml.org/doc/246750
ER -