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Exciton-polaron interactions in monolayer WS $ 2$

dc.contributor.authorMuir, Jack Ben
dc.contributor.authorLevinsen, Jesperen
dc.contributor.authorEarl, Stuart Ken
dc.contributor.authorConway, Mitchell Aen
dc.contributor.authorCole, Jared Hen
dc.contributor.authorWurdack, Matthiasen
dc.contributor.authorMishra, Rishabhen
dc.contributor.authorIng, David J.en
dc.contributor.authorEstrecho, Eliezeren
dc.contributor.authorLu, Yueruien
dc.contributor.authorEfimkin, Dmitry K.en
dc.contributor.authorTollerud, Jonathan Oen
dc.contributor.authorOstrovskaya, Elenaen
dc.contributor.authorParish, Meera M.en
dc.contributor.authorDavis , Jeffrey A.en
dc.date.accessioned2026-06-17T20:42:25Z
dc.date.available2026-06-17T20:42:25Z
dc.date.issued2022-10-18en
dc.description.abstractInteractions between quasiparticles are of fundamental importance and ultimately determine the macroscopic properties of quantum matter. A famous example is the phenomenon of superconductivity, which arises from attractive electron-electron interactions that are mediated by phonons or even other more exotic fluctuations in the material. Here we introduce mobile exciton impurities into a two-dimensional electron gas and investigate the interactions between the resulting Fermi polaron quasiparticles. We employ multi-dimensional coherent spectroscopy on monolayer WS2, which provides an ideal platform for determining the nature of polaron-polaron interactions due to the underlying trion fine structure and the valley specific optical selection rules. At low electron doping densities, we find that the dominant interactions are between polaron states that are dressed by the same Fermi Sea. In the absence of bound polaron pairs (bipolarons), we show using a minimal microscopic model that these interactions originate from a phase-space filling effect, where excitons compete for the same electrons. We furthermore reveal the existence of a bipolaron bound state with remarkably large binding energy, involving excitons in different valleys cooperatively bound to the same electron. Our work lays the foundation for probing and understanding strong electron correlation effects in two-dimensional layered structures such as moiré superlattices.en
dc.description.sponsorshipThis work was supported by the Australian Research Council Center of Excellence in Future Low-Energy Electronics Technologies (CE170100039). M.M.P. and J.L. were supported through the Australian Research Council Future Fellowships FT200100619 and FT160100244, respectively. J.H.C. and D.J.I. also acknowledge the support of the Australian National Computational Infrastructure (NCI) and the ARC Centre of Excellence in Exciton Science (CE170100026). Y.L. acknowledges the support of ARC Centre of Excellence in Quantum Computation and Communication Technology (CE170100012). E.E. was supported through the Australian Research Council Discovery Early Career Research Award DE220100712.en
dc.description.statusPeer-revieweden
dc.format.extent22en
dc.identifier.otherBibtex:muir2022excitonen
dc.identifier.otherORCID:/0000-0001-6131-3906/work/217688989en
dc.identifier.otherORCID:/0000-0003-0523-6533/work/217692377en
dc.identifier.urihttps://hdl.handle.net/1885/733811535
dc.sourcearXiv preprint arXiv:2206.12007en
dc.titleExciton-polaron interactions in monolayer WS $ 2$en
dc.typeJournal articleen
dspace.entity.typePublicationen
local.contributor.affiliationMuir, Jack B; Geophysics, Research School of Earth Sciences, ANU College of Science and Medicine, The Australian National Universityen
local.contributor.affiliationLevinsen, Jesper; ARC Centre of Excellence in Future Low-Energy Electronics Technologiesen
local.contributor.affiliationEarl, Stuart K; Swinburne University of Technologyen
local.contributor.affiliationConway, Mitchell A; Swinburne University of Technologyen
local.contributor.affiliationCole, Jared H; ARC Centre of Excellence in Future Low-Energy Electronics Technologiesen
local.contributor.affiliationWurdack, Matthias; School Administrative Support, Research School of Physics, ANU College of Science and Medicine, The Australian National Universityen
local.contributor.affiliationMishra, Rishabh; Swinburne University of Technologyen
local.contributor.affiliationIng, David J.; Swinburne University of Technologyen
local.contributor.affiliationEstrecho, Eliezer; Department of Quantum Science & Technology, Research School of Physics, ANU College of Science and Medicine, The Australian National Universityen
local.contributor.affiliationLu, Yuerui; ARC Centre of Excellence for Quantum Computation and Communication Technology, Research School of Physics, ANU College of Science and Medicine, The Australian National Universityen
local.contributor.affiliationEfimkin, Dmitry K.; Monash Universityen
local.contributor.affiliationTollerud, Jonathan O; Swinburne University of Technologyen
local.contributor.affiliationOstrovskaya, Elena; Department of Quantum Science & Technology, Research School of Physics, ANU College of Science and Medicine, The Australian National Universityen
local.contributor.affiliationParish, Meera M.; Monash Universityen
local.contributor.affiliationDavis , Jeffrey A.; Swinburne University of Technologyen
local.identifier.doi10.1038/s41467-022-33811-xen
local.identifier.pure2d3ae009-6456-4f8f-b457-3686d1f57a27en
local.type.statusPublisheden

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