Optical Parametric Generator

光参量发生器

• 批准号: RTI-2021-00231
• 负责人: Hore, Dennis
• 金额: $ 10.93万
• 依托单位: University of Victoria
• 依托单位国家: 加拿大
• 项目类别: Research Tools and Instruments
• 财政年份: 2020
• 资助国家: 加拿大
• 起止时间: 2020-01-01 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=718821
• 关键词: Optical; Parametric; Generator

Funds are requested to urgently replace a pulsed picosecond optical parametric amplifier that is a central component of my research program, and is the central piece of equipment associated with all of my NSERC-funded projects (through Discovery, Discovery Accelerator, Engage, Alliance, CHRP, and CRD). An average of 15 students use this laser each year (including those supported by NSERC scholarships such as CGS, PGS, and USRA), and it operates around the clock, approximately 450 hours each month. This laser-based component is used to generate ultra-short pulses of light tunable throughout the mid-infrared region. It enables fundamental studies of material surfaces, especially the interface between minerals or polymers and aqueous solutions. Understanding the structure of molecules at solid-liquid interfaces is of critical importance to environmental and geochemical processes such as rock weathering, erosion, and pollutant transport. Technologies such as DNA microarrays and drug delivery rely on precise control of the surface protonation state and surface charge. Polymers are used to produce many of the objects we encounter in our daily life. While their bulk properties make them stiff or pliable, transparent or opaque, an equal amount of attention goes into tailoring their surfaces to best interact with their intended surroundings. For example, materials such as acrylic are widely used in medical implants as they are strong and lightweight, but their surfaces are not naturally biocompatible. Our research seeks to understand how polymer surfaces are altered on the nanometre scale when they are placed next to liquids such as biological fluids. Surface modification is also important in textile processing, as plasma-treated fibres have increased adhesion to dyes, dramatically reducing or eliminating the need for solvents that are harmful for workers and the environment. Studying charged polymer surfaces also leads to improved understanding of how lightweight insulators withstand weathering for reliable overhead power distribution to Canadian towns and cities. This piece of equipment, part of a sophisticated surface analysis probe, provides many training opportunities for students as they design experiments, and tailoring its output for the particular surface under investigation. Interpreting the results of these experiments in order to extract the sought chemical structural information often entails modelling on various levels and the application of advanced data visualization strategies. The experiments enabled by this equipment therefore further fundamental science with direct short-term applications, and simultaneously train the next generation of scientists and engineers.

我们迫切需要资金来替换脉冲皮秒光参量放大器，这是我研究计划的核心组成部分，也是我所有nserc资助项目（通过Discovery， Discovery Accelerator, Engage, Alliance， CHRP和CRD）的核心设备。每年平均有15名学生使用该激光器（包括那些由NSERC奖学金支持的学生，如CGS， PGS和USRA），并且它全天候运行，每月约450小时。