M. O. Goerbig, G. Montambaux, F. Piéchon
Published 2013-12-13, updated 2014-03-06Version 2
We analyze the low-energy properties of two-dimensional direct-gap semiconductors, such as for example the transition-metal dichalcogenides MoS$_2$, WS$_2$, and their diselenide analogues MoSe$_2$, WSe$_2$, etc., which are currently intensively investigated. In general, their electrons have a mixed character -- they can be massive Dirac fermions as well as simple Schr\"odinger particles. We propose a measure (Diracness) for the degree of mixing between the two characters and discuss how this quantity can in principle be extracted experimentally, within magneto-transport measurements, and numerically via ab initio calculations.
Comments: 6 pages, 2 figures ; new version (with minor modifications) accepted for publication in EPL
Journal: EPL 105, 57005 (2014)
Valley-Dependent Magnetoresistance in Two-Dimensional Semiconductors
Optimal model of semi-infinite graphene for ab initio calculations of reactions at graphene edges by the example of zigzag edge reconstruction
Longitudinal-transverse splitting and fine structure of Fermi polarons in two-dimensional semiconductors
![QR code for arXiv:1312.3879 [cond-mat.mes-hall]](http://oss.arxitics.com/images/favicon.svg)