Strongly correlated electrons in atomically thin
semiconductors
A. Imamoglu
Institute for Quantum Electronics, ETH Zürich, CH-8093 Zürich,
Switzerland
In this talk, I will describe recent experiments
in atomically-thin transition metal dichalcogenides (TMDs) where
Coulomb interactions between electrons dominate over their kinetic
energy. Our measurements provide a direct evidence that the
electrons at densities < 3 · 1011 cm-2
in a pristine MoSe2 monolayer form a Wigner crystal even
at B = 0 [1]. This is revealed by our low-temperature (T = 80 mK)
magneto-optical spectroscopy experiments that utilize a newly
developed technique allowing to unequivocally detect charge
order [2]. This method relies on the modification of excitonic
band structure arising due to the periodic potential experienced by
the excitons interacting with an electronic lattice. Under such
conditions, optically-inactive exciton states with finite momentum
matching the reciprocal Wigner lattice vector k = kW
get Bragg scattered back to the light cone, where they hybridize
with the zero-momentum bright exciton states. This leads to
emergence of a new, umklapp peak in the optical spectrum heralding
the presence of periodically-ordered electronic charge distribution.
Twisted bilayers of TMDs in turn offer a wealth of new phenomena,
ranging from dipolar excitons to correlated insulator states.
Another striking example of qualitatively new phenomena in this
system is our recent observation of an electrically tunable
two-dimensional Feshbach resonance in exciton-hole scattering [3],
which allows us to control the strength of interactions between
excitons and holes located in different layers. Our findings enable
hitherto unexplored possibilities for optical investigation of
many-body physics, as well as realization of degenerate Bose-Fermi
mixtures with tunable interactions.
[1] T. Smoleński, P. E. Dolgirev, C. Kuhlenkamp, A. Popert,1 Y.
Shimazaki, P. Back, X. Lu, M. Kroner, K. Watanabe,
T. Taniguchi, I. Esterlis, E. Demler, and A. Imamoglu,
arXiv:2010.03078 (2020).
[2] Y. Shimazaki, C. Kuhlenkamp, I. Schwartz, T. Smolenski, K.
Watanabe, T. Taniguchi, M. Kroner, R. Schmidt, M. Knap, A. Imamoglu,
arXiv:2008.04156 (2020).
[3] I. Schwartz, Y. Shimazaki, C. Kuhlenkamp. K. Watanabe, T.
Taniguchi, M. Kroner, A. Imamoglu, arXiv:2105.03997 (2021).