國立成功大學「邁向頂尖大學計畫」
延攬優秀人才工作報告表
NCKU’s “Aim for the Top University Project”
Work Report Form for Distinguished Scholars
□續聘
continuation of employment□離職
resignation100 年 7 月 13 日更新 受聘者姓名
Name of the Employee
Goncharenko, Anatolii ■男 �女 Male Female 聘 期 Period of Employment from 2015 年(y)11 月(m) 1 日(d) to 2015 年(y) 12 月(m) 31 日(d) 研究或教學或科技研發與 管理計畫名稱
The project title of research, teaching, technology development and management
Computation and Modeling for
Advanced Science and
Technology
計畫主持人
(申請單位主管)
Project Investigator (Head of Department/Center)Yia-Chung Chang
/
Yan-Ten Lu
補助延聘編號
Grant Number
HUA 104- 3 - 2 -241
一、
研究、教學、科技研發與管理工作全程經過概述。
(由受聘人填寫)
Please summarize the entire research, teaching, or science and technology R&D and management work process (To be
completed by the employee)
1. Software was developed and debugged for solving the dispersion equation for three-layer planar plasmonic waveguides. This software enables to find all solutions within an actual interval of wave numbers using a graphical method and to choose the solutions of interest, namely, well-defined surface plasmon polariton modes characterized by low losses. In addition, to assess how promising the modes are for their use in sensorics and slow-light applications, this software was applied to compute both the sensitivity of the modes to small changes of the coating layer and the group velocity spectra. As is shown, one, two, or no solutions to the dispersion equation can exist for the three-layer system of “metal - thin polymer coating - vacuum” in different spectral ranges. One of the solutions allows one to get the extraordinary low group velocity and high sensitivity of the plasmonic modes to the small changes in the coating layer thickness and composition. Besides, an instability of the dispersion equation solutions is shown to occur for a combination of material and geometrical parameters of the waveguide under study.
2. Software was developed to solve the dispersion equation of graded-grating based photonic superstructures of the type “plasmonic substrate-graded grating-vacuum”. Dispersion of the surface plasmon polariton modes was calculated for superstructures based on heavily-doped silicon, as well as on heavily doped zinc oxide. As shown, broadband light trapping resulted from generation of slow plasmon-polariton modes can be realized for such superstructures, based on heavily-doped silicon, at wavelengths longer than 3 micrometers, and for those, based on heavily-doped zinc oxide, at wavelengths longer than 1.5 micrometers.
二、
研究或教學或科技研發與管理成效評估(
由計畫主持人或單位主管填寫
)
Please evaluate the performance of research, teaching or science and technology R&D and management Work: (To be completed
by Project Investigator or Head of Department/Center)
(1)是否達到延攬預期目標?
Has the expected goal of recruitment been achieved?
(2)研究或教學或科技研發與管理的方法、專業知識及進度如何?
What are the methods, professional knowledge, and progress of the research, teaching, or R&D and management work?
(3)受延攬人之研究或教學或科技研發與管理成果對該計畫(或貴單位)助益如何?
How have the research, teaching, or R&D and management results of the employed person given benefit to the project (or your unit)?
(4)受延攬人於補助期間對貴單位或國內相關學術科技領域助益如何?
How has the employed person, during his or her term of employment, benefited your unit or the relevant domestic academic field?
(5)具體工作績效或研究或教學或科技研發與管理成果:
Please describe the specific work performance, or the results of research, teaching, or R&D and management work:
(6)
是否續聘受聘人?
Will you continue hiring the employed person?□續聘
Yes
□不續聘
No
※ 此報告表篇幅以三~四頁為原則。
This report form should be limited to 3-4 pages in principle.※ 此表格可上延攬優秀人才成果報告繳交說明網頁下載。
This report form can be downloaded in http://scholar.lib.ncku.edu.tw/explain/