In situ observation of the chemical bonding state of Si in the molten state of eutectic Au–Si alloy of Au81Si19 by using a soft X-ray emission spectroscopy electron microscope
Author:
Terauchi Masami,Umemoto Naoya,K. Sato Yohei,Ageishi Masaki,Tsai An-Pang
Abstract
Abstract
Phase diagram of Au–Si binary alloy system shows a large drop in melting temperature of about 1000K compared with that of Si at a composition of Au:Si = 81:19, where the melting temperature is about 636K. Mixing of Au and Si below the melting temperature was observed by transmission electron microscopy experiment, and it was found that the mixed region shows a diffraction pattern of a diffuse ring intensity indicating an amorphous structure of the mixed area. Si L-emission spectra, which reflect the energy state of bonding electrons of Si atom, of molten Au81Si19 alloy were measured for the first time to investigate the energy state of valence electrons of Si. The Si L-emission spectrum showed a characteristic loss of L1 peak, which is related to sp3 directional bonding in crystalline Si. The intensity profile is also different from that of molten Si reported. This suggests a characteristic atomic arrangement that exists in the molten state. The intensity profile also indicated a small density of state in the molten state at Fermi energy. The obtained spectrum was compared with the calculated density of state of possible crystal structures reported. The comparison suggested that Si atoms are surrounded by eight Au atoms in the molten state of Au81Si19 alloy. The formation of this local atomic arrangement can be an origin of a large drop of melting temperature at about Au:Si = 81:19.
Funder
Dynamic Alliance for Open Innovation Bridging Human Environment and Materials
Publisher
Oxford University Press (OUP)
Subject
Radiology, Nuclear Medicine and imaging,Instrumentation,Structural Biology