報告題目:Computational Study toward Micro Electronics Engineering
報 告 人:白石賢二教授 日本名古屋大學
報告時間:5月31日(周五)9點30分
報告地點:數學樓一樓第二報告廳
報告摘要:
Due to the remarkable progress of computational sciences including first principles calculations, we can predict the physical properties of new materials and device characteristics by theoretical calculations. For example, we can well reproduce surface reconstructions at the atomistic level, and we can predict the importance of oxygen vacancies in high-k HfO2 oxide dielectrics based on the first principles calculations. Actually, first principles calculations are treated as crucial tool for designing future micro-electronic engineering in the present days.
In this presentation, we will show the new scientific findings which gives great insight to modern micro electronics engineering by showing some recent our activities given by first principles calculations. We discuss the importance of computational sciences for developing future micro electronics devices by showing the example of successful results of first principles calculations such as design of high-k LSI, operation mechanisms of modern memory devices including charge trap memories (MONOS) and resistance random access memories (ReRAM).
報告人簡介:
白石賢二,日本名古屋大學教授、東京大學名譽教授、築波大學名譽教授。是理論和計算凝聚态物質科學研究領域的專家。主要從事固體的系統固有表面,界面和缺陷的電子和結構特性、納米材料和納米結構中的原子結構與電子特性的相關性、石墨烯,矽質等二維材料的電子特性、器件結構中薄膜生長和界面形成的機理等方面的研究。在《Phys. Rev. Lett.》《Phys. Rev. B 》等雜志發表高水平學術論文300餘篇,曾獲得ACM戈登貝爾獎、主持項目創新領域的科學研究,日本MEXT“通過計算機進行材料設計”,JST-CREST“基于計算量子理論科學的納米結構構建”。
