Characterization of Surface Chemical States of a Thick Insulator : Chemical State Imaging on MgO Surface
スポンサーリンク
概要
- 論文の詳細を見る
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2005-02-15
著者
-
Whang Chung-nam
Institute Of Physics And Applied Physics And Atomic-scale Surface Science Research Center Yonsei Uni
-
Cho S
Yonsei Univ. Seoul Kor
-
NOH Myungkeun
Institute of Physics and Applied Physics, Yonsei University
-
Noh Myungkeun
Institute Of Physics And Applied Physics And Atomic-scale Surface Science Research Center Yonsei Uni
-
Shin Hyun-joon
Pohang Accelerator Laboratory And Department Of Physics Pohang University Of Science And Technology
-
YI Yeonjin
Institute of Physics and Applied Physics and Atomic-scale Surface Science Research Center, Yonsei Un
-
CHO Sangwan
Institute of Physics and Applied Physics and Atomic-scale Surface Science Research Center, Yonsei Un
-
JEONG Kwangho
Institute of Physics and Applied Physics and Atomic-scale Surface Science Research Center, Yonsei Un
関連論文
- Geometric Effect of Channel on Device Performance in Pentacene Tin-Film Transistor
- Characterization of Surface Chemical States of a Thick Insulator : Chemical State Imaging on MgO Surface
- The Instability of Nitrogen Bonds in Oxygen Incorporated InN_O_x Films
- An Optimistic Cache Consistency Protocol Using Preemptive Approach
- A New Fast Image Retrieval Using the Condensed Two-Stage Search Method(Multimedia Systems)
- A New Fast Image Retrieval Using the Condensed Two-Stage Search Method
- Laser Stimulated Desorption from Compound Semiconductors, Dimerization Enhanced Phase Transition
- The Instability of Nitrogen Bonds in Oxygen Incorporated InN1-xOx Films
- Geometric Effect of Channel on Device Performance in Pentacene Thin-Film Transistor
- Effect of Diffused B During Annealing on the Electronic Structure of the MgO Barrier in CoFeB/MgO/CoFeB Magnetic Tunnel Junctions
- Characterization of Surface Chemical States of a Thick Insulator: Chemical State Imaging on MgO Surface