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Momentum-resolved view of highly tunable many-body effects in a graphene/hBN field-effect device

Integrating the carrier tunability of a functional two-dimensional material electronic device with a direct probe of energy- and momentum-resolved electronic excitations is essential to gain insights on how many-body interactions are influenced during device operation. Here, we use micro-focused angle-resolved photoemission in order to analyze many-body interactions in back-gated graphene supported on hexagonal boron nitride. By extracting the doping-dependent quasiparticle dispersion and self-energy, we observe how these interactions renormalize the Dirac cone and impact the electron mobility of our device. Our results are not only limited to a finite energy range around the Fermi level, as in electron transport measurements, but describe interactions on a much wider energy scale, extending beyond the regime of hot carrier excitations.

preprint2020arXivOpen access
Ryan MuzzioAlfred J. H. JonesDavide CurcioDeepnarayan BiswasJill A. MiwaPhilip HofmannKenji WatanabeTakashi TaniguchiSimranjeet SinghChris JozwiakEli RotenbergAaron BostwickRoland J. KochSøren UlstrupJyoti Katoch
cond-mat.mes-hall
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Open access15 authors1 topic
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Ryan MuzzioAlfred J. H. JonesDavide CurcioDeepnarayan BiswasJill A. MiwaPhilip HofmannKenji WatanabeTakashi TaniguchiSimranjeet SinghChris JozwiakEli RotenbergAaron BostwickRoland J. KochSøren UlstrupJyoti Katoch

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