Shogo Hashimoto scite author profile

Valence electronic states of a clean Si(111)-7×7 surface are investigated in a surface-site-selective way using high-resolution coincidence measurements of Si L 23 VV Auger electrons and Si 2p photoelectrons. The Si L 23 VV Auger electron spectra measured in coincidence with energy-selected Si 2p photoelectrons show that the valence band at the highest density of states in the vicinity of the rest atoms is shifted by ∼0.95 eV toward the Fermi level (E F ) relative to that in the vicinity of the pedestal atoms (atoms directly bonded to the adatoms). The valence-band maximum in the vicinity of the rest atoms, on the other hand, is shown to be shifted by ∼0.53 eV toward E F relative to that in the vicinity of the pedestal atoms. The Si 2p photoelectron spectra of Si(111)-7×7 measured in coincidence with energy-selected Si L 23 VV Auger electrons identify the topmost surface components, and suggest that the dimers and the rest atoms are negatively charged while the pedestal atoms are positively charged. Furthermore, the Si 2p-Si L 23 VV photoelectron Auger coincidence spectroscopy directly verifies that the adatom Si 2p component (usually denoted by C 3 ) is correlated with the surface state just below E F (usually denoted by S 1 ), as has been observed in previous angle-resolved photoelectron spectroscopy studies.

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Topmost-surface-sensitive Si-2p photoelectron spectra of clean Si(100)-2×1 measured with photoelectron Auger coincidence spectroscopy

Kakiuchi

Hashimoto

Fujita

et al. 2010

Surface Science

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Auger electron spectra of hydrogenated Si(111)-1×1 surface obtained fromSi-L₂₃VVAuger electron Si-2pphotoelectron coincidence measurements

Yamazaki

Hashimoto

Kakiuchi

et al. 2011

J. Phys.: Conf. Ser.

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Shogo Hashimoto

Surface-Site-Selective Study of Valence Electronic Structures of Clean Si(100)-2×1 Using Si-L₂₃VVAuger Electron–Si-2pPhotoelectron Coincidence Spectroscopy

Site-specific ion desorption from condensed F3SiCD2CH2Si(CH3)3 induced by Si-2p core-level ionizations studied with photoelectron photoion coincidence (PEPICO) spectroscopy, Auger photoelectron coincidence spectroscopy (APECS) and Auger electron photoion coincidence (AEPICO) spectroscopy

Surface-site-selective study of valence electronic states of a clean Si(111)-7×7 surface using SiL23VVAuger electron and Si 2
Kakiuchi
¹
,
Tahara
²
,
Hashimoto
³

et al. 2011
Phys. Rev. B

Topmost-surface-sensitive Si-2p photoelectron spectra of clean Si(100)-2×1 measured with photoelectron Auger coincidence spectroscopy

Auger electron spectra of hydrogenated Si(111)-1×1 surface obtained fromSi-L₂₃VVAuger electron Si-2pphotoelectron coincidence measurements

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Shogo Hashimoto

Surface-Site-Selective Study of Valence Electronic Structures of Clean Si(100)-2×1 Using Si-L23VVAuger Electron–Si-2pPhotoelectron Coincidence Spectroscopy

Site-specific ion desorption from condensed F3SiCD2CH2Si(CH3)3 induced by Si-2p core-level ionizations studied with photoelectron photoion coincidence (PEPICO) spectroscopy, Auger photoelectron coincidence spectroscopy (APECS) and Auger electron photoion coincidence (AEPICO) spectroscopy

Surface-site-selective study of valence electronic states of a clean Si(111)-7×7 surface using SiL23VVAuger electron and Si 2Kakiuchi1, Tahara2, Hashimoto3 et al. 2011Phys. Rev. B

Topmost-surface-sensitive Si-2p photoelectron spectra of clean Si(100)-2×1 measured with photoelectron Auger coincidence spectroscopy

Auger electron spectra of hydrogenated Si(111)-1×1 surface obtained fromSi-L23VVAuger electron Si-2pphotoelectron coincidence measurements

Contact Info

Product

Resources

About

Surface-Site-Selective Study of Valence Electronic Structures of Clean Si(100)-2×1 Using Si-L₂₃VVAuger Electron–Si-2pPhotoelectron Coincidence Spectroscopy

Surface-site-selective study of valence electronic states of a clean Si(111)-7×7 surface using SiL23VVAuger electron and Si 2
Kakiuchi
¹
,
Tahara
²
,
Hashimoto
³

et al. 2011
Phys. Rev. B

Auger electron spectra of hydrogenated Si(111)-1×1 surface obtained fromSi-L₂₃VVAuger electron Si-2pphotoelectron coincidence measurements