Silicene, a honeycomb lattice of silicon, presents a particular case of allotropism on Ag(111). Silicene forms multiple structures with alike in-plane geometry but different out-of-plane atomic buckling and registry to the substrate. Angle-resolved photo emission and first-principles calculations show that these silicene structures, with (4x4), (root 13x root 13)R13.9 degrees, and (2 root 3x2 root 3)R30 degrees lattice periodicity, display similar electronic bands despite the structural differences. In all cases the interaction with the substrate modifies the electronic states, which significantly differ from those of free-standing silicene. Complex photoemission patterns arise from surface umklapp processes, varying according to the periodicity of the silicene allotropes.
Electronic States of Silicene Allotropes on Ag(111)
Sheverdyaeva Polina M;Mahatha Sanjoy Kr;Moras Paolo;Carbone Carlo
2017
Abstract
Silicene, a honeycomb lattice of silicon, presents a particular case of allotropism on Ag(111). Silicene forms multiple structures with alike in-plane geometry but different out-of-plane atomic buckling and registry to the substrate. Angle-resolved photo emission and first-principles calculations show that these silicene structures, with (4x4), (root 13x root 13)R13.9 degrees, and (2 root 3x2 root 3)R30 degrees lattice periodicity, display similar electronic bands despite the structural differences. In all cases the interaction with the substrate modifies the electronic states, which significantly differ from those of free-standing silicene. Complex photoemission patterns arise from surface umklapp processes, varying according to the periodicity of the silicene allotropes.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
