Jonas G. Roch, Guillaume Froehlicher, Nadine Leisgang, Peter Makk, Kenji Watanabe, Takashi Taniguchi, Richard J. Warburton
Published 2018-07-17Version 1
The optical susceptibility is a local, minimally-invasive and spin-selective probe of the ground state of a two-dimensional electron gas. We apply this probe to a gated monolayer of MoS$_2$. We demonstrate that the electrons are spin polarized. Of the four available bands, only two are occupied. These two bands have the same spin but different valley quantum numbers. We argue that strong Coulomb interactions are a key aspect of this spontaneous symmetry breaking. The Bohr radius is so small that even electrons located far apart in phase space interact, facilitating exchange couplings to align the spins.
Electrical Control of Optical Properties of Monolayer MoS$_2$
Fine structure of negatively charged and neutral excitons in monolayer MoS$_{2}$
How do Quantum Effects Influence the Capacitance and Carrier Density of Monolayer MoS$_2$ Transistors?
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