Topological semimetal with coexisting nodal points and nodal lines

Bing-Bing Luo, Ming-Jian Gao, Jun-Hong An

Published 2025-01-23Version 1

Featuring exotic quantum transport and surface states, topological semimetals can be classified into nodal-point, nodal-line, and nodal-surface semimetals according to the degeneracy and dimensionality of their nodes. The coexistence of diverse categories of topological semimetals is of particular interest as it enables the concurrent utilization of their respective beneficial features. However, topological semimetals that possess both nodal points and nodal lines are rarely reported. Here, we propose a scheme to construct this unprecedented topological semimetal, which particularly exhibits second-order hinge Fermi arcs connecting projected nodal lines. Then, by applying periodic driving on the system, we find a hybrid-order topological semimetal with nodal points and rich nodal-lines structures and its conversion into the first-order topological semimetal, which are absent in the static system. Our results enrich the family of topological semimetals, thereby establishing a foundation for further exploration into the potential applications of these materials.