Development of novel quantum vacuum-based electronic devices platform and enabling its microfabrication methods.

开发新型基于量子真空的电子器件平台并实现其微加工方法。

• 批准号: 559532-2020
• 负责人: Drouin, DominiqueD
• 金额: $ 10.65万
• 依托单位: Université de Sherbrooke
• 依托单位国家: 加拿大
• 项目类别: Alliance Grants
• 财政年份: 2022
• 资助国家: 加拿大
• 起止时间: 2022-01-01 至 2023-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=754052
• 关键词: Development; novel; quantum; vacuum; based

Quantum materials (QMs) are a hotbed for ground-breaking research. When combined with engineered structures such as resonant nanocavities, coupled light-matter states with highly novel properties result which can be engineered to create new and unique technologies. The control of these coupled hybrid states has demonstrated a high potential for applications in quantum information as well as in nanoelectronics, optoelectronics, sensors, photon sources, and even vacuum induced chemistry. Our industrial partner, Infinite Potential Laboratories is poised to take advantage of the latest progress in quantum fabrication science, in particular to develop new technologies for vacuum-based applications in quantum information processing (QIP). The goal of this partnership between UdeS researchers and IPL is to develop an innovative quantum vacuum-based electronic platform to confirm and characterize the QIP in strongly coupled light-matter systems. The objectives of this Alliance project are: i) develop the expertise to fabricate novel nano structures that enable strong coupling and control of QM surfaces in nanocavities; ii) demonstrate proof of concept devices based on these novel strongly coupled light-matter structures that will pave the way to practical quantum systems.The nanofabrication processes developed in the project will be a particularly beneficial for: i) the emerging fields of nanoplasmonics, quantum chemical processing and catalysis; ii) QIP through a quantum control device; iii) the Canadian quantum community at large by providing a unique infrastructure to study ultrafast dynamic hybridized states of matter.

量子材料（QM）是用于开创性研究的温床。当与工程结构（例如谐振纳米腔）结合使用时，具有高度新颖性能的耦合的光结合状态可以设计为创建新的独特技术。这些耦合杂交状态的控制表明，在量子信息以及纳米电子，光电子，传感器，光子源甚至真空诱导的化学方面的应用都具有很高的潜力。我们的工业合作伙伴无限的潜在实验室有望利用量子制造科学的最新进展，特别是为基于真空的量子信息处理（QIP）开发新技术。 UDES研究人员和IPL之间这种合作伙伴关系的目的是开发一个创新的基于量子真空的电子平台，以确认和表征强耦合的光晶格系统中的QIP。该联盟项目的目标是：i）开发专业知识，以制造新型的纳米结构，从而使纳米腔中QM表面有强大的耦合和控制； ii）基于这些新型的强耦合光结构结构来展示概念设备的证明，这些结构将为实用量子系统铺平道路。项目中开发的纳米化工艺过程将对：i）纳米浆果的新兴领域特别有益： ii）通过量子控制设备进行QIP； iii）加拿大量子界通过提供独特的基础设施来研究超快动态杂交状态。