You can master the structural control and molecular design necessary to achieve the ultimate optical properties required: "high transparency, precise refractive index control, and low birefringence."
Lecturer Nobuhisa Tanio, Associate Professor, Doctor of Engineering, Graduate School of Optical Science, Department of Bio-Materials, Faculty of Comprehensive Optical Science, Chitose Institute of Science and Technology Target Audience: Researchers facing challenges in the design of optical polymers Venue: Kawasaki City International Exchange Center, Room 5 [Kanagawa, Kawasaki] 10-12 minutes walk from "Motosumiyoshi Station" on the Tokyu Toyoko Line and Tokyu Meguro Line Date and Time: April 18, 2011 (Monday) 10:30 AM - 4:00 PM
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basic information
**Course Objectives and Aims** Optical polymers are at the core of optical technologies that are responsible for the display, recording, and transmission of information, such as optical films for displays, optical discs, optical lenses, and optical fibers. With advancements in technology, there is a demand for ultimate optical properties such as high transparency, precise refractive index control, and low birefringence. In this course, we will quantitatively explain the important optical properties (transparency, refractive index, birefringence) related to the application of optical materials in relation to polymer structure, and understand how to control the structure and what kind of molecular design is necessary to achieve ideal optical properties. Additionally, transparent polymers are in a glassy state. We will also discuss the aging of optical polymers with the glassy state as a keyword. This course aims to provide the fundamental knowledge necessary for designing and utilizing optical polymers.
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49350
Price range
P2
Delivery Time
P2
Applications/Examples of results
Lecture I: Fundamentals of Optical Polymers 1. What are Transparent Polymers? 2. Amorphous Structure and Glass State 3. Design of Optical Polymers through Amorphous Structure Control Lecture II: Control of Refractive Index and Reduction of Birefringence Lecture III: Light Absorption, Scattering Mechanisms, and High Transparency 1. Light Absorption Loss 1.1 Electron Transition Absorption 1.2 Atomic Vibration Absorption 1.3 Molecular Structure of Polymers and Light Absorption Loss 1.4 Reduction of Light Absorption Loss 2. Light Scattering Loss 2.1 Higher-Order Structure Analysis by Light Scattering Method 2.2 Refractive Index Inhomogeneous Structure and Light Scattering Loss 2.3 Higher-Order Structure Control for High Transparency 2.4 Molecular Structure of Polymers and Light Scattering Loss 2.5 Reduction of Light Scattering Loss 3. High Transparency 3.1 Molecular Properties Required for High Transparency Polymers 3.2 Molecular Design for High Transparency 3.3 Transparency Prediction System for Optical Polymers Lecture IV: Aging of Optical Polymers 1. Glass State and Glass Transition Temperature 2. Physical Aging of Polymer Glass 3. Changes in Optical Properties due to Aging 4. Stability and Reliability of Optical Properties [Q&A and Business Card Exchange]
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