Development of Intense, Tunable, Transform Limited Coherent Sources for Chemistry Research

开发用于化学研究的强、可调谐、转换有限相干源

• 批准号: 9400814
• 负责人: Hanna Reisler
• 金额: $ 26.02万
• 依托单位: University of Southern California
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 1994
• 资助国家: 美国
• 起止时间: 1994-04-01 至 1997-06-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=9400814&HistoricalAwards=false
• 关键词: Development; Intense; Tunable; Transform; Limited

This award from the Chemistry Research Instrumentation and Facilities Program will assist the Department of Chemistry at the University of Southern California to construct injection seeded optical parametric oscillators (OPOs) as sources of high-brightness, high-resolution tunable radiation. The timetable for this instrument construction project is as follows: Year 1: Purchase Nd:YAG laser. Purchase diode lasers and crystals. Purchase and install diagnostic electronics. Construct prototype assembly: 3-4 diodes, no doubling or mixing. Demonstrate SLM operation. Construct optoacoustic cell for absorption measurement. Year 2: Build second assembly similar to the one constructed in Year 1. Extend tuning range by frequency doubling and mixing. Extend tuning range by installing additional diodes. Integrate the above assembly into an experiment in the PIs' labs. Year 3: Optimize devices incorporating several diode lasers and doubling and mixing frequency extension techniques. Build injection seeded assemblies designed for specific projects in the PIs' laboratories. Integrate newly developed diode lasers into existing assemblies. A tunable infrared laser can provide important information about chemical reactivity. Its use may enable breakthroughs in our understanding of the properties of reactive and nonreactive of molecules.

化学研究仪器和设施计划的这一奖项将帮助南加州大学化学系建造注入种子光学参量振荡器（OPO）作为高亮度，高分辨率可调谐辐射源。 本仪器建设项目时间表如下： 第一年： 购买Nd：YAG激光器。 采购二极管激光器和晶体。 购买和安装诊断电子设备。 构建原型组件：3-4个二极管，无倍增或混合。 演示SLM操作。 制作光声吸收测量池。 第二年： 构建与第1年构建的组件相似的第二个组件。 通过倍频和混频扩展调谐范围。 通过安装额外的二极管扩展调谐范围。 将上述组件集成到PI实验室的实验中。 第三年： 优化包含多个二极管激光器和倍频的器件， 混合频率扩展技术。 构建为PI中的特定项目设计的注入种子组件 laboratories. 将新开发的二极管激光器集成到现有组件中。 可调谐红外激光器可以提供有关化学反应性的重要信息。 它的使用可能使我们在分子的反应性和非反应性的性质的理解上取得突破。