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Main Authors: Tanaka, Shin-ichiro, Suga, Shigemasa, Ueno, Keiji, Fukutani, Keisuke, Matsui, Fumihiko
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2402.04664
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author Tanaka, Shin-ichiro
Suga, Shigemasa
Ueno, Keiji
Fukutani, Keisuke
Matsui, Fumihiko
author_facet Tanaka, Shin-ichiro
Suga, Shigemasa
Ueno, Keiji
Fukutani, Keisuke
Matsui, Fumihiko
contents The remarkable properties of (1T-)TiSe$_2$ among the transition metal dichalcogenides have attracted the attention of many researchers due to its peculiar behavior during the charge density wave (CDW) transition. Therefore, it is highly desirable to study its electronic structure down to the atomic orbitals. In the present research, we applied momentum-resolved resonant photoelectron spectroscopy to study TiSe$_2$ at the Ti2p-Ti3d absorption edge by using a momentum microscope, which can simultaneously detect the electronic states in a wide $(k_x,k_y)$ range. We have also used constant initial state (CIS) spectroscopy and density functional theory (DFT) calculations to reveal the hybridization between the Ti3d and Se4p orbitals within the valence band at the Gamma point at room temperature. In addition, an interesting result comes from our analysis of the CIS spectrum for the energy band located at a binding energy of 2 eV at the M-point. This band, mainly composed of the Se4p orbital, exhibited a Fano line profile at the Ti2p edge, with a negative value of the parameter "$q$". This is the first clear evidence of the inter-atomic interaction during the valence band photoelectron emission process. This behavior differs significantly from the standard resonant photoelectron emission, which usually involves intra-atomic interactions. It also differs from the multi-atom resonant photoelectron emission (MARPE) observed in the core-level photoelectron emission, as we focus on the photoelectron emission from the valence band in this research.
format Preprint
id arxiv_https___arxiv_org_abs_2402_04664
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Momentum-resolved resonant photoelectron spectroscopic study for 1T-TiSe$_2$: Observation of negative q in the Fano resonance due to inter-atomic interaction in the valence band
Tanaka, Shin-ichiro
Suga, Shigemasa
Ueno, Keiji
Fukutani, Keisuke
Matsui, Fumihiko
Materials Science
The remarkable properties of (1T-)TiSe$_2$ among the transition metal dichalcogenides have attracted the attention of many researchers due to its peculiar behavior during the charge density wave (CDW) transition. Therefore, it is highly desirable to study its electronic structure down to the atomic orbitals. In the present research, we applied momentum-resolved resonant photoelectron spectroscopy to study TiSe$_2$ at the Ti2p-Ti3d absorption edge by using a momentum microscope, which can simultaneously detect the electronic states in a wide $(k_x,k_y)$ range. We have also used constant initial state (CIS) spectroscopy and density functional theory (DFT) calculations to reveal the hybridization between the Ti3d and Se4p orbitals within the valence band at the Gamma point at room temperature. In addition, an interesting result comes from our analysis of the CIS spectrum for the energy band located at a binding energy of 2 eV at the M-point. This band, mainly composed of the Se4p orbital, exhibited a Fano line profile at the Ti2p edge, with a negative value of the parameter "$q$". This is the first clear evidence of the inter-atomic interaction during the valence band photoelectron emission process. This behavior differs significantly from the standard resonant photoelectron emission, which usually involves intra-atomic interactions. It also differs from the multi-atom resonant photoelectron emission (MARPE) observed in the core-level photoelectron emission, as we focus on the photoelectron emission from the valence band in this research.
title Momentum-resolved resonant photoelectron spectroscopic study for 1T-TiSe$_2$: Observation of negative q in the Fano resonance due to inter-atomic interaction in the valence band
topic Materials Science
url https://arxiv.org/abs/2402.04664