理数情報教育系

Yasufumi Susuki

  (鈴木 康文)

Profile Information

Affiliation
Professor, Division of Math, Sciences, and Information Technology in Education, Osaka Kyoiku University
Degree
Doctor (Engineering)(Kyoto University)
京都大学博士(工学)(京都大学)
Master (Engineering)(Kyoto University)
工学修士(京都大学)

Researcher number
00196784
J-GLOBAL ID
200901094497580318
researchmap Member ID
1000027504

External link

Research History

 4

Papers

 77

Misc.

 74
  • Fukazawa Yuuko, Susuki Yasufumi
    Abstract book of Annual Meeting of the Japan Society of Vacuum and Surface Science, 2021 3P16, 2021  
    We have studied the electron-stimulated desorption from surface of alkali-halides by using grazing angle scattering of protons. When the surface of an alkali halide is irradiated by a few keV of electron energy, several types of defects are created inside the crystal. Numerous defects diffuse in the bulk and form a cluster of defects under the surface which stimulates surface atoms to desorb. Desorption that causes a change in the morphology of the surface is categorized into two types. The 1st is formation of a pit with monolayer depth on a flat surface and the 2nd is desorption from the step edges of the pit. In this study, the changes in desorption yields due to these defects are investigated by comparing the measured scattering intensities of fast protons with calculated ones obtained by a proton-scattering-simulation.
  • Fukazawa Yuuko, Susuki Yasufumi
    Abstract book of Annual Meeting of the Japan Society of Vacuum and Surface Science, 2020 72, 2020  
    The yield of desorbed atoms at electron stimulated desorption (ESD) from the surface of KBr(001) have been investigated through varying the external electron energy and beam current density. When the surface of an alkali halide is irradiated by a few keV of electron energy, several types of defects occur inside the crystal. Some defects diffuse in the bulk and form a cluster of defects under the surface, which stimulate the surface atoms to desorb. Surface atoms are ejected and the ejection is resulting in the layer-by-layer mode removal. In this study, 15 keV protons are incident on the electron-stimulated desorbed KBr surface, and their scattering intensity oscillation according to the desorption period of surface atoms is investigated. The first half-period is found to elongate compared with subsequent half-periods. The elongation depends on the irradiation electron energy and decreases with the elevating temperature of the sample. We discuss to use this elongation to estimate of accumulated defects.
  • Tasaki Kenya, Yoshikawa Yuta, Fukazawa Yuuko, Susuki Yasufumi
    Abstract book of Annual Meeting of the Japan Society of Vacuum and Surface Science, 2019 1P41, 2019  
    The yield of desorbed atoms at electron stimulated desorption (ESD) from the surface of KBr(001) have been investigated through varying the external electron energy and beam current density. When the surface of an alkali halide is irradiated by a few keV of electron energy, surface atoms are ejected by ESD and resulting in the layer-by-layer mode removal. The specular intensity oscillations of 15-keV protons incident on the surface with small angles are measured with variety of the up-mentioned electron-beam conditions and target temperatures.
  • Fukazawa Yuuko, Hioki Taketo, Ito Tsubasa, Susuki Yasufumi
    Abstract book of Annual Meeting of the Japan Society of Vacuum and Surface Science, 2019 1P40, 2019  
    An assembly of stainless steel meshes was made in order to transfer the primary ion beam current to the secondary electron beam current. Secondary electron emission current from the assembly was measured by 3 keV He+ ion beam bombardment. The electron current was reproduced by a simple model based on the study of the secondary electron emission at the ion and electron bombardments. Because we use no high level mathematics and no special material, this work is expected to be attractive for undergraduate students in science colleges.
  • Tasaki Kenya, Fukazawa Yuuko, Susuki Yasufumi
    Meeting Abstracts of the Physical Society of Japan, 74.2 452-452, 2019  

Books and Other Publications

 1

Presentations

 16