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Hauptverfasser: Gatti, G., Berthod, C., Issing, J., Straub, M., Mandloi, S., Alexanian, Y., Avila, J., Dudin, P., Kim, T. K., Watson, M. D., Cacho, C., Watanabe, K., Taniguchi, T., Wang, W., Clark, N., Gorbachev, R., Ubrig, N., Gutierrez-Lezama, I., Morpurgo, A. F., Tamai, A., Baumberger, F.
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2604.24139
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author Gatti, G.
Berthod, C.
Issing, J.
Straub, M.
Mandloi, S.
Alexanian, Y.
Avila, J.
Dudin, P.
Kim, T. K.
Watson, M. D.
Cacho, C.
Watanabe, K.
Taniguchi, T.
Wang, W.
Clark, N.
Gorbachev, R.
Ubrig, N.
Gutierrez-Lezama, I.
Morpurgo, A. F.
Tamai, A.
Baumberger, F.
author_facet Gatti, G.
Berthod, C.
Issing, J.
Straub, M.
Mandloi, S.
Alexanian, Y.
Avila, J.
Dudin, P.
Kim, T. K.
Watson, M. D.
Cacho, C.
Watanabe, K.
Taniguchi, T.
Wang, W.
Clark, N.
Gorbachev, R.
Ubrig, N.
Gutierrez-Lezama, I.
Morpurgo, A. F.
Tamai, A.
Baumberger, F.
contents Many-body interactions can couple electronic states in one layer with collective excitations in the adjacent layer, providing a route to tailor properties of heterostructures. However, detecting and quantifying interlayer many-body interactions proved a major challenge. Here, we demonstrate that quasiparticles in monolayer transition metal dichalcogenides (TMDs) are dressed by a remote cloud of phonons in the adjacent hexagonal boron nitride slab. Using angle resolved photoemission, we identify replica bands in the TMDs which are a clear fingerprint of long-range electron-phonon interaction. We develop a modified Fröhlich model that shows semi-quantitative agreement with the experimental spectral functions. Our analysis shows that remote electron-phonon coupling is a generic property of interfaces with hBN. This has implications for electron mobilities in 2D materials, for superconductivity and possibly for moiré correlated phases.
format Preprint
id arxiv_https___arxiv_org_abs_2604_24139
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Electron-phonon coupling across the TMD/hBN van der Waals interface
Gatti, G.
Berthod, C.
Issing, J.
Straub, M.
Mandloi, S.
Alexanian, Y.
Avila, J.
Dudin, P.
Kim, T. K.
Watson, M. D.
Cacho, C.
Watanabe, K.
Taniguchi, T.
Wang, W.
Clark, N.
Gorbachev, R.
Ubrig, N.
Gutierrez-Lezama, I.
Morpurgo, A. F.
Tamai, A.
Baumberger, F.
Materials Science
Strongly Correlated Electrons
Many-body interactions can couple electronic states in one layer with collective excitations in the adjacent layer, providing a route to tailor properties of heterostructures. However, detecting and quantifying interlayer many-body interactions proved a major challenge. Here, we demonstrate that quasiparticles in monolayer transition metal dichalcogenides (TMDs) are dressed by a remote cloud of phonons in the adjacent hexagonal boron nitride slab. Using angle resolved photoemission, we identify replica bands in the TMDs which are a clear fingerprint of long-range electron-phonon interaction. We develop a modified Fröhlich model that shows semi-quantitative agreement with the experimental spectral functions. Our analysis shows that remote electron-phonon coupling is a generic property of interfaces with hBN. This has implications for electron mobilities in 2D materials, for superconductivity and possibly for moiré correlated phases.
title Electron-phonon coupling across the TMD/hBN van der Waals interface
topic Materials Science
Strongly Correlated Electrons
url https://arxiv.org/abs/2604.24139