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Hauptverfasser: Tanaka, Hiroaki, Okazaki, Shota, Fukushima, Yuto, Kawaguchi, Kaishu, Harasawa, Ayumi, Iimori, Takushi, Komori, Fumio, Arita, Masashi, Mori, Ryo, Kuroda, Kenta, Sasagawa, Takao, Kondo, Takeshi
Format: Preprint
Veröffentlicht: 2023
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Online-Zugang:https://arxiv.org/abs/2311.05953
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author Tanaka, Hiroaki
Okazaki, Shota
Fukushima, Yuto
Kawaguchi, Kaishu
Harasawa, Ayumi
Iimori, Takushi
Komori, Fumio
Arita, Masashi
Mori, Ryo
Kuroda, Kenta
Sasagawa, Takao
Kondo, Takeshi
author_facet Tanaka, Hiroaki
Okazaki, Shota
Fukushima, Yuto
Kawaguchi, Kaishu
Harasawa, Ayumi
Iimori, Takushi
Komori, Fumio
Arita, Masashi
Mori, Ryo
Kuroda, Kenta
Sasagawa, Takao
Kondo, Takeshi
contents We develop a simulation procedure for angle-resolved photoemission spectroscopy (ARPES), where a photoelectron wave function is set to be an outgoing plane wave in a vacuum associated with the emitted photoelectron wave packet. ARPES measurements on the transition metal dichalcogenide $1T$-$\mathrm{Ti}\mathrm{S}_2$ are performed, and our simulations exhibit good agreement with experiments. Analysis of our calculated final state wave functions quantitatively visualizes that they include various waves due to the boundary condition and the uneven crystal potential. These results show that a more detailed investigation of the photoelectron final states is necessary to fully explain the photon-energy- and light-polarization-dependent ARPES spectra.
format Preprint
id arxiv_https___arxiv_org_abs_2311_05953
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Photoemission angular distribution beyond the single wavevector description of photoelectron final states
Tanaka, Hiroaki
Okazaki, Shota
Fukushima, Yuto
Kawaguchi, Kaishu
Harasawa, Ayumi
Iimori, Takushi
Komori, Fumio
Arita, Masashi
Mori, Ryo
Kuroda, Kenta
Sasagawa, Takao
Kondo, Takeshi
Materials Science
We develop a simulation procedure for angle-resolved photoemission spectroscopy (ARPES), where a photoelectron wave function is set to be an outgoing plane wave in a vacuum associated with the emitted photoelectron wave packet. ARPES measurements on the transition metal dichalcogenide $1T$-$\mathrm{Ti}\mathrm{S}_2$ are performed, and our simulations exhibit good agreement with experiments. Analysis of our calculated final state wave functions quantitatively visualizes that they include various waves due to the boundary condition and the uneven crystal potential. These results show that a more detailed investigation of the photoelectron final states is necessary to fully explain the photon-energy- and light-polarization-dependent ARPES spectra.
title Photoemission angular distribution beyond the single wavevector description of photoelectron final states
topic Materials Science
url https://arxiv.org/abs/2311.05953