Session Details
[9a-PA2-1~9]13.1 Fundamental properties, surface and interface, and simulations of Si related materials
Wed. Sep 9, 2026 9:00 AM - 10:30 AM JST
Wed. Sep 9, 2026 12:00 AM - 1:30 AM UTC
Wed. Sep 9, 2026 12:00 AM - 1:30 AM UTC
PA2 (1st Gymnasium)
[9a-PA2-1]Analysis of the electronic structure of sheet-like Si nanomaterials using first-principles calculations
〇(M1)Shintaro Kando1, Kenta Arima1, Kouji Inagaki1 (1.Osaka Univ.)
[9a-PA2-2]Non-destructive evaluation of high-aspect-ratio Si trench bottoms via ARXPS -An Approach to Uniformizing Large-Area Si Trench Structures Using Wet Etching-
〇Taizo Kawashima1, Shiika Murase1, Kouji Inagaki1, Kenta Arima1 (1.UOsaka)
[9a-PA2-3]Improved Energy Storage Characteristics of Antiferroelectric ZrO2 Capacitors with a Sub-Nanometer TiO2 Interfacial Layer
〇(D)JunKai Lai1, JinEn Lin1, ChiAn Ho1, JerChyi Wang1,2,3 (1.Chang Gung Univ. for Chang Gung University, 2.Chang Gung Memorial Hospital, 3.Ming Chi Univ. of Tech. for Ming Chi University of Technology)
[9a-PA2-4]Understanding the Charge Amount of Spray Droplets during Two-Fluid Spray Cleaning Using IPA
〇kota sugiura1, Sato Jundai1, Mori Tatsuo1, Ichino yusuke1, Seike Yushiyuki1 (1.Aichi Inst. of Technol)
[9a-PA2-5]Molecular Dynamics Analysis of the Pattern Collapse Suppression of Nanopatterned Structures in Rapid Drying
〇Yudai Shinozaki1, Yuto Yamamoto1 (1.Shibaura Mechatronics Corporation)
[9a-PA2-6]Hole Transport through Stacking Faults and the Mechanism of Inversion Layer Formation in 3C-SiC/4H-SiC Heterostructures
〇Kota Gejo1, Tetsuo Hatakeyama1, Masao Sakuraba2, Hiroyuki Nagasawa2,3 (1.Toyama Pref. Uni., 2.RIEC, Tohoku Univ., 3.CUSIC Inc.)
[9a-PA2-7]Time-Resolved Quantum FDTD Simulation of Dynamic Quantum Interference in Photonic Circuits
〇Masahiro Kato1, Satofumi Souma1 (1.Kobe Univ.)
[9a-PA2-8]Statistical Variability of Defect-Induced Leakage in Phosphorene Tunnel FETs
〇Ryo Isshiki1, Satofumi Souma1 (1.Kobe Univ.)
[9a-PA2-9]Bohmian Trajectory Analysis of Coulomb-Modulated Two-Electron Quantum Transport in Flying Qubit Devices
〇Yuma Yamaguchi1, Satofumi Souma1 (1.Kobe Univ.)
