Federal funding will accelerate quantum startups’ products and solutions for domestic and global markets.
The Government of Canada announced on February 22 it is investing more than $17.2 million in funding through the Regional Quantum Initiative to support startup companies in Southern Ontario’s quantum technology sector, including two companies that have spun out from the University of Waterloo, High Q Technologies Inc., with an investment of $3.7 million and Foqus Technologies Inc., with an investment of $601,975.
Researchers from IQC, MIT, and the University of Illinois at Urbana-Champaign have developed a technique for better identification and control of microscopic defects in diamond, as detailed in PRX Quantum, paving the way for the creation of larger qubit systems for enhanced quantum sensing. This breakthrough, led by Alexandre Cooper-Roy, represents a significant advancement in quantum sensing, offering potential revolutionary impacts across various industries and scientific fields.
Congratulations to Institute for Quantum Computing (IQC) faculty members Dr. David Cory, Dr. Thomas Jennewein and Dr. Chris Wilson, who have each received approximately $3 million in funding for advancing their research into the real-world applications of quantum technology.
IQC Special Colloquium - Aziza Suleymanzade, Harvard University
The experimental development of quantum networks marks a significant scientific milestone, poised to enable secure quantum communication, distributed quantum computing, and entanglement-enhanced nonlocal sensing. In this talk, I will discuss the recent advancements in the field along with the outstanding challenges through my work on two different platforms: Silicon Vacancy defects in diamond nanophotonic cavities and Rydberg atoms coupled to hybrid cavities. First, I will present our recent results on distributing entanglement across a two-node network with on-chip solid-state defects in cavities which we built at Harvard. We demonstrated high-fidelity entanglement between communication and memory qubits and showed long-distance entanglement over the 35 km of deployed fiber in the Cambridge/Boston area. Second, I will describe our work at the University of Chicago on using Rydberg atoms as transducers of quantum information between optical and microwave photons, with the goal of integrating Rydberg platforms with superconducting circuits and paving the way for advanced quantum network architectures. The talk will conclude with a perspective on the potential of this hybrid platform approach in constructing quantum networks, highlighting the uncharted scientific and technological opportunities it could unlock.
ETSI and the Institute for Quantum Computing are pleased to announce the 10th ETSI/IQC Quantum Safe Cryptography Conference, taking place in Singapore on May 14-16, 2024. The event will be hosted by the Centre for Quantum Technologies, National University of Singapore.
This event was designed for members of the business, government, and research communities with a stake in cryptographic standardization to facilitate the knowledge exchange and collaboration required to transition cyber infrastructures and business practices to make them safe in an era with quantum computers. It aims to showcase both the most recent developments from industry and government and cutting-edge potential solutions coming out of the most recent research.