Observation of an excitonic Mott transition through ultrafast core-$\textit{cum}$-conduction photoemission spectroscopy

Observation of an excitonic Mott transition through ultrafast core-$\textit{cum}$-conduction photoemission spectroscopy

Phys. Rev. Lett. 125, 096401 (2020) Time-resolved soft-X-ray photoemission spectroscopy is used to simultaneously measure the ultrafast dynamics of core-level spectral functions and excited states upon excitation of excitons in WSe$_2$. We present a many-body approximation for the Green's funct...

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Hauptverfasser: Dendzik, Maciej, Xian, R. Patrick, Perfetto, Enrico, Sangalli, Davide, Kutnyakhov, Dmytro, Dong, Shuo, Beaulieu, Samuel, Pincelli, Tommaso, Pressacco, Federico, Curcio, Davide, Agustsson, Steinn Ymir, Heber, Michael, Hauer, Jasper, Wurth, Wilfried, Brenner, Günter, Acremann, Yves, Hofmann, Philip, Wolf, Martin, Marini, Andrea, Stefanucci, Gianluca, Rettig, Laurenz, Ernstorfer, Ralph
Format: Artikel
Sprache:eng
Schlagworte:
Physics - Materials Science
Physics - Mesoscale and Nanoscale Physics
Physics - Strongly Correlated Electrons
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Zusammenfassung:Phys. Rev. Lett. 125, 096401 (2020) Time-resolved soft-X-ray photoemission spectroscopy is used to simultaneously measure the ultrafast dynamics of core-level spectral functions and excited states upon excitation of excitons in WSe$_2$. We present a many-body approximation for the Green's function, which excellently describes the transient core-hole spectral function. The relative dynamics of excited-state signal and core levels reveals a delayed core-hole renormalization due to screening by excited quasi-free carriers, revealing an excitonic Mott transition. These findings establish time-resolved core-level photoelectron spectroscopy as a sensitive probe of subtle electronic many-body interactions and an ultrafast electronic phase transition.
DOI:10.48550/arxiv.2003.12925