Consortium on Quantum Simulation with Spin Qubits (CQS2Q)

自旋量子位量子模拟联盟 (CQS2Q)

• 批准号: 578461-2022
• 负责人: Salfi, JosephJR
• 金额: $ 72.85万
• 依托单位: University of British Columbia
• 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=751954
• 关键词: Consortium; Quantum; Simulation; Spin; Qubits

Who would have thought that microscopic particles, called holes, could change the world? Well, a coast-to-coast research community is rallying behind a junior professor from the University of British Columbia and his senior colleague from the Université de Sherbrooke with the goal of creating a machine based on these particles that offers unprecedented capabilities for quantum simulation. Indeed, these machines could help meet current social needs such as mimicking molecules to discover new drugs or putting oneself in the shoes of a quantum material to unravel the mystery of high temperature superconductivity.The team is partnering with entities holding expertise in microelectronics and quantum computers to model, fabricate, and control its machine, which will allow it to move quickly along its technology roadmap. These scientific and technological partners are the National Research Council of Canada, CMC Microsystems, the Canadian company 1QBit Information Technologies, the Leibniz-Institut für Kristallzüchtung in Germany, and the multinationals Keysight Technologies and Oxford Instruments.Recognizing the importance of letting scientists do what they do best, which is science, the team is joining forces with strategic partners in research commercialization such as the BC Quantum Algorithms Institute in British Columbia and the Sherbrooke Innovation Zone in Quebec. This will allow the consortium to become a unified workforce of Canada's vibrant quantum science and technology innovation ecosystem and to ultimately create the first Canadian company in quantum simulation.

谁会想到被称为空穴的微观粒子可以改变世界呢？好吧，一个海岸到海岸的研究社区正在团结在一位来自不列颠哥伦比亚省大学的初级教授和他来自舍布鲁克大学的高级同事的身后，他们的目标是创造一种基于这些粒子的机器，为量子模拟提供前所未有的能力。事实上，这些机器可以帮助满足当前的社会需求，例如模仿分子以发现新药，或者将自己置于量子材料的位置以解开高温超导的奥秘。该团队正在与拥有微电子和量子计算机专业知识的实体合作，以建模，制造和控制其机器，这将使其能够快速沿着其技术路线图前进。这些科学和技术合作伙伴是加拿大国家研究理事会、CMC微系统公司、加拿大1 QBit信息技术公司、德国的莱布尼茨-水晶研究所以及跨国公司是德科技公司和牛津仪器公司。该团队正在与研究商业化的战略合作伙伴合作，如不列颠哥伦比亚省的BC量子算法研究所和魁北克的舍布鲁克创新区。这将使该财团成为加拿大充满活力的量子科学和技术创新生态系统的统一劳动力，并最终创建第一家加拿大量子模拟公司。