Dichroism in the ultrafast ARPES response and valence band orbital nature of BaNiS 2

Jiuxiang Zhang; Zhesheng Chen; Jonathan Caillaux; Yannick Klein; Andrea Gauzzi; Azzedine Bendounan; Amina Taleb-Ibrahimi; Luca Perfetti; Evangelos Papalazarou; Marino Marsi

doi:10.1140/epjs/s11734-022-00746-9

Dichroism in the ultrafast ARPES response and valence band orbital nature of BaNiS ₂

Jiuxiang Zhang
, Zhesheng Chen
, Jonathan Caillaux
, Yannick Klein
, Andrea Gauzzi
, Azzedine Bendounan
, Amina Taleb-Ibrahimi
, Luca Perfetti
, Evangelos Papalazarou
, Marino Marsi

Laboratoire de Physique des Solides
Sorbonne Université
Synchrotron SOLEIL
CEA/UVSQ/CNRS

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Time-resolved ARPES gives access to the band structure and ultrafast dynamics of excited electronic states in solids. The orbital character of the bands close to the Fermi level is essential to understand the origin of several exotic phenomena in quantum materials. By performing polarization-dependent time- and angle-resolved photoemission spectroscopy and by analyzing the photoelectron yield for two different crystal orientations, we identify the orbital character of bands below and above the chemical potential for the Dirac semimetal BaNiS ₂. Our results illustrate how the control and understanding of matrix elements’ effects in time-resolved photoemission spectroscopy can be a powerful tool for the study of quantum materials.

langue originale	Anglais
Pages (de - à)	2205-2211
Nombre de pages	7
journal	European Physical Journal: Special Topics
Volume	232
Numéro de publication	13
Les DOIs	https://doi.org/10.1140/epjs/s11734-022-00746-9
état	Publié - 1 sept. 2023
Modification externe	Oui

Accès au document

10.1140/epjs/s11734-022-00746-9

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title = "Dichroism in the ultrafast ARPES response and valence band orbital nature of BaNiS 2",

abstract = "Time-resolved ARPES gives access to the band structure and ultrafast dynamics of excited electronic states in solids. The orbital character of the bands close to the Fermi level is essential to understand the origin of several exotic phenomena in quantum materials. By performing polarization-dependent time- and angle-resolved photoemission spectroscopy and by analyzing the photoelectron yield for two different crystal orientations, we identify the orbital character of bands below and above the chemical potential for the Dirac semimetal BaNiS 2. Our results illustrate how the control and understanding of matrix elements{\textquoteright} effects in time-resolved photoemission spectroscopy can be a powerful tool for the study of quantum materials.",

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T1 - Dichroism in the ultrafast ARPES response and valence band orbital nature of BaNiS 2

AU - Zhang, Jiuxiang

AU - Chen, Zhesheng

AU - Caillaux, Jonathan

AU - Klein, Yannick

AU - Gauzzi, Andrea

AU - Bendounan, Azzedine

AU - Taleb-Ibrahimi, Amina

AU - Perfetti, Luca

AU - Papalazarou, Evangelos

AU - Marsi, Marino

PY - 2023/9/1

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N2 - Time-resolved ARPES gives access to the band structure and ultrafast dynamics of excited electronic states in solids. The orbital character of the bands close to the Fermi level is essential to understand the origin of several exotic phenomena in quantum materials. By performing polarization-dependent time- and angle-resolved photoemission spectroscopy and by analyzing the photoelectron yield for two different crystal orientations, we identify the orbital character of bands below and above the chemical potential for the Dirac semimetal BaNiS 2. Our results illustrate how the control and understanding of matrix elements’ effects in time-resolved photoemission spectroscopy can be a powerful tool for the study of quantum materials.

AB - Time-resolved ARPES gives access to the band structure and ultrafast dynamics of excited electronic states in solids. The orbital character of the bands close to the Fermi level is essential to understand the origin of several exotic phenomena in quantum materials. By performing polarization-dependent time- and angle-resolved photoemission spectroscopy and by analyzing the photoelectron yield for two different crystal orientations, we identify the orbital character of bands below and above the chemical potential for the Dirac semimetal BaNiS 2. Our results illustrate how the control and understanding of matrix elements’ effects in time-resolved photoemission spectroscopy can be a powerful tool for the study of quantum materials.

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