Transparent Conductive Distributed Bragg Reflectors Composed of High and Low Refractive Index Transparent Conductive Films
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
著者
-
Lee Cheng-chung
Department Of Optics And Photonics National Central University
-
Chen Sheng-hui
Department Of Electrical Engineering National Taiwan University Of Science And Technology
-
Li Meng-Chi
Department of Optics and Photonics/Thin Film Technology Center, National Central University, Chungli 320, Taiwan
-
Kuo Chien-Cheng
Graduate Institute of Energy Engineering/Thin Film Technology Center, National Central University, Chungli 320, Taiwan
関連論文
- Enhanced Birefingence of MgF_2 Thin Film at 193nm by Serial Bideposition
- Spiral Search Method for Designing a Wide Angular Broadband Visible Antireflection Coating
- Error Compensation in Reflection Type Centering Error Testing
- Effects of Thermal Annealing on Titanium Oxide Films Prepared by Ion-Assisted Deposition
- Off-Axis Performance Analysis of Wavefront Coded Imaging System
- Etching Effect of the Autocloning Structure Using Ion-Assisted Deposition
- System for Measuring Optical Admittance of a Thin Film Stack
- A Low Cost Key Agreement Protocol Based on Binary Tree for EPCglobal Class 1 Generation 2 RFID Protocol
- Effects of Re-baking and Substrate Temperature on Optical Properties and Residual Stress of Ion-Assisted Deposition TiO2 Thin Film
- Two-Frequency Paired Polarization Interferometer for Faraday Rotation Angle Detection
- Transparent Conductive Distributed Bragg Reflectors Composed of High and Low Refractive Index Transparent Conductive Films
- Preparation of Low Resistivity Transparent Conductive Nb-Doped TiO Films by the Co-sputtering Method
- Nanoimprinting Pre-Patterned Effects on Anodic Aluminum Oxide
- Two-Dimensional Distributions of Five Cell Parameters of Twisted Nematic Liquid Crystal Device by Numerical Photometric Ellipsometer
- Eliminating Spherical Aberration by Gradient-Indexed Lenses: Formulation and Extension