91精品黑料吃瓜

Quantum research at 91精品黑料吃瓜: Creating the future with NSERC support

By University of Ottawa

Office of the Vice-President, Research and Innovation, OVPRI

January 27, 2025

2025 NSERC funding recipients
From left to right, top row: Hang Chi, Anne Broadbent and Paul Mayer. Bottom row: Jeff Lundeen, Pierre Berini and Muralee Murugesu.
Quantum science is not just about theoretical exploration 鈥 it has profound practical implications for technology, medicine, security and the environment. By addressing challenges deemed insurmountable, quantum research drives innovation across many fields.

On January 21, the Natural Sciences and Engineering Research Council of Canada (NSERC) announced funding for quantum science projects, including six initiatives at 91精品黑料吃瓜. These awards reinforce the University鈥檚 commitment to exploring quantum science and driving innovation in Canada.

鈥淔or 91精品黑料吃瓜, being at the forefront of quantum research is more than an academic pursuit. It represents an investment in the future,鈥 says Julie St-Pierre, interim vice-president, research and innovation, at the University of Ottawa. 鈥淏y fostering a robust ecosystem of researchers, students and industry collaborations, the University is ensuring that Canada remains a leader in the global quantum race.鈥 

Meet the recipients

Professor Pierre Berini is spearheading research into 鈥淣anostructured Quantum Light Sources.鈥 This initiative focuses on enhancing quantum applications by integrating plasmonic nano-antennas 鈥 tiny structures that manipulate light at the nanoscale 鈥 with quantum emitters. By engineering these interactions, Berini aims to produce reliable, efficient quantum light sources, essential for transmitting and processing quantum information. He seeks to develop integrated platforms that could revolutionize quantum communication, computing and sensing, enabling faster, more secure data transmission.

Professor Anne Broadbent鈥檚 work delves into quantum cryptography, particularly exploring the no-cloning principle, which states that it鈥檚 impossible to create an exact copy of an unknown quantum state. This principle underpins the security of quantum communication systems. In collaboration with Sorbonne Universit茅, Broadbent aims to develop secure, unclonable proof systems and provide robust theoretical frameworks to analyze their security, enhancing the reliability of quantum networks.

Professor Hang Chi is studying magnetic topological chalcogenides, materials with unique electronic properties that result from their magnetic and geometric structure, which remains robust under external disturbance. This research aims to uncover phenomena like the quantum anomalous Hall eff