IEEE EDS Japan Chapter 会員各位

IEEE EDS Kansai Chapter 会員各位

IEEE Electron Devices Society Japan Chapter

Chair 木村紳一郎

Vice Chair 鳥海明

DL(Distinguished Lecturer)講演会のお知らせ

東北大学・学際科学国際高等研究センターにて筑波大学数理物質科学研究科白石賢二教授によるDL講演会が開催されます。DL講演会は参加費は無料,IEEE会員以外も出席可能です。皆様のご参加を頂きたくご案内申し上げます。

------------------------------------------------------------------

日時: 11月27日(日) 13:00-14:00

講演者:白石賢二(筑波大学・数理物質科学研究科教授)

場所:東北大学・学際科学国際高等研究センター

講演タイトル:

Interface Physics and Its Approach to Modern Devices

-A Computational Physics Approach-

内容:

Due to the great success of the first principles calculations, we can obtain and predict the physical properties of new materials by theoretical calculations. For example, surface reconstructions can well be reproduced at the atomistic level by the first principles calculations [1]. At present,first principles calculations have become one of the most important tools for investigating various kinds of materials. This situation is crucial for modern semiconductor nano-technologies in which introduction of new materials are inevitable [2]. For example, Hf-based oxides have been used as alternative gate dielectrics of conventional SiO2 and new channel materials such as Ge and GaAs are expected as a promising candidate of future Si nano devices. Further, carbon nanotubes and Si-nanowires are also expected as key building blocks of future LSIs. The merit of the first principles calculations is that we can obtain realistic images of wave functions and detailed atomistic structures of new materials, which cannot be obtained only through the experiments alone. This knowledge in addition to the experimental finding enables us to construct useful concepts of modern nano-technologies. Actually, New scientific findings obtained by computational physics give great impact to modern semiconductor devices.

In this presentation, I will show the examples which interface physics gives great impact to semiconductor devices, such as MOSFET with high-k/metal-gate [3-5], guiding principles for MONOS type memories [6],and proposal of operation mechanism of ReRAM [8].

[1] Zhu, Z., Shima, N. and Tsukada, M.,(1989) Phys. Rev. B 40 11868. [2]Wilk, G. D, Wallace, R.M., Anthony, J.M., (2001) J. Appl. Phys. 89 5243. [3]Shiraihsi, K., et al. (2004): Tech. Dig. 2004 Symp. On VLSI Tech., Honolulu,USA, June, 2004, p.108. [4] Shiraishi, K.,et al. (2004): Jpn. J. Appl.Phys. 43 L1413. [5] Akasaka, Y., et al. (2006): Jpn. J. Appl. Phys. 45L1289. [6] Yamaguchi, K, et al. (2010): Tech. Dig. 2010 IEDM, San-Francisco,USA, December,2010, p.122 [7] Kamiya, K. et al. Proc. of 1st International Workshop on Resistive RAM, 2011, Leuven, Belgium, Nov. 2011.

Contact: Tetsuo Endoh (endoh@riec.tohoku.ac.jp)

========================================================

IEEE EDS Japan Chapter連絡先:Secretary 鳥居和功

E-mail:kazuyoshi.torii@ieee.org

Home page:http://www.ieee-jp.org/section/tokyo/chapter/ED-15/

========================================================