TQT event bridges gap between quantum and environment
TQT event bridges gap between quantum and environment Event held on Thursday, February 15, 2024 TQT hosted the Quantum for Environment Information Session: How Can Quantum Address Environmental Challenges on Thursday, February 15, 2024. The event brought together speakers and attendees from both the quantum and environment communities. Speakers from the environmental community outlined […]
February 15, 2024
University of Waterloo IQC researchers awarded $9 million in funding for quantum innovation
University of Waterloo IQC researchers awarded $9 million in funding for quantum innovation Monday, January 29, 2024 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 […]
January 29, 2024
Q4Environment Information Session: How Can Quantum Address Environmental Challenges?
Q4Environment Information Session: How Can Quantum Address Environmental Challenges? Thursday, February 15, 2024 TQT will be holding the Q4Environment Information Session: How Can Quantum Address Environmental Challenges on Thursday, February 15 at RAC 1, 3003, from 1:30 pm – 2:30 pm. This event will provide attendees an opportunity to hear from speakers from both […]
January 25, 2024
QQSF Round 12 Now Open
Monday, October 2, 2023 Transformative Quantum Technologies (TQT) is excited to announce that the 12th round of the Quantum Quest Seed Fund (QQSF) is now open. This fund is intended to develop new ideas and applications for quantum devices. This opportunity is open to all tenure-track faculty at the University of Waterloo. Proposals that […]
October 2, 2023
Waterloo's Quantum
Valley
QVI - Quantum Valley Investments RAC - RAC Complex QVIL - Quantum Valley Ideas Lab IQC - Institute for Quantum Computing at the University of Waterloo (UW) QNF - Quantum Nanofab, UW PI - The Perimeter Institute for Theoretical Physics LI - Lazardis Institute for the Management of Technology
TQT Quantum Opportunities and Showcase 2023
TQT Quantum Opportunities & Showcase 2023 Event to be held on Thursday, December 14, 2023, 12:00 PM – 3:30 PM, RAC 2 TQT will host the Quantum Opportunities and Showcase on Thursday, December 14, 2023, at the University of Waterloo. The event will feature panels, presentations and posters. Attendees will have the opportunity to […]
November 22, 2023
Q4Environment Lunch and Learn fosters connections
Quantum for Environment Lunch and Learn fosters connections Event held on Tuesday, October 24, 2023 On October 24, TQT, GreenHouse and the Quantum Ethics Project jointly hosted the Quantum for Environment Lunch and Learn. The event brought together attendees from both the quantum and environment communities, including many attendees who were new to quantum […]
October 24, 2023
IQC Faculty Elected as American Physical Society Fellowship for Science and Quantum Innovation
IQC Faculty Elected as American Physical Society Fellowship for Science and Quantum Innovation Thursday, October 19, 2023 Two faculty members at the Institute for Quantum Computing (IQC) have received prestigious recognition by their peers for the outstanding contributions they have made to physics. Dr. Dmitry Pushin and Dr. Graeme Smith are newly elected as 2023 Fellows of the American Physical […]
October 19, 2023
Q4Environment Lunch & Learn
Q4Environment Lunch & Learn: How can Quantum Solutions Impact Environmental Challenges Tuesday, October 24, 12 – 1:30 pm, GreenHouse (UTD 164) GreenHouse, TQT, and the Quantum Ethics Project will host a lunch & learn to explore the impact of applying quantum technology to address environmental needs. The Lunch & Learn is open to all […]
October 5, 2023
Ideation Forum generates new connections across quantum and environment
Ideation Forum generates new connections across quantum and environment Event held on Monday, September 18, 2023 On September 18, TQT held the Quantum For Environment – Ideation Forum. The event saw over 60 attendees with nearly 100 registering interest, including undergraduate and graduate students, postdoctoral fellows, faculty, and staff. Many attendees were new to […]
September 19, 2023
Waterloo researchers make a significant step towards reliably processing quantum information
Waterloo researchers make a significant step towards reliably processing quantum information Monday, September 11, 2023 New optical system designed to target and control individual atoms Using laser light, researchers have developed the most robust method currently known to control individual qubits made of the chemical element barium. The ability to reliably control a qubit is […]
September 11, 2023
Researchers propose technique to detect microwave photons using point defects in diamond
Researchers propose technique to detect microwave photons using point defects in diamond Thursday, August 31, 2023 En Français Olivia Woodman and Abdolreza Pasharavesh, graduate students at IQC, together with Dr. Michal Bajcsy and Dr. Christopher Wilson, faculty members at IQC and Waterloo’s Department of Electrical and Computer Engineering, have developed a promising model to detect these photons by […]
August 31, 2023
A programmable structured light interferometer has shown remarkable advancements in studying disorders and diseases of the human eye
A collaboration between the Institute for Quantum Computing (IQC), the University of Waterloo School of Optometry and Vision Science, and the Center for Eye and Vision Research in Hong Kong is working on a programmable structured light interferometer that can detect debilitating eye diseases and disorders such as macular degeneration before irreversible damage occurs. […]
April 3, 2023
Nanodiamond quantum sensors are a promising new avenue for virus mRNA detection
A novel quantum sensor based on nanodiamonds may better detect the presence of viruses that cause diseases, such as the SARS-CoV-2 virus responsible for the COVID-19 pandemic. Reverse transcriptase quantitative polymerase chain reaction (RT-PCR) is the current gold-standard diagnostic technique for virus detection; however, the method suffers from the need for trained personnel, special […]
March 30, 2023
Next-generation quantum detectors show significant promise in medical applications and beyond
Researchers supported by Transformative Quantum Technologies (TQT) have fabricated quantum detectors with remarkable electrical and optical properties that will advance photodetection across a broad range of applications. Detection of light down to the single photon level opens up new possibilities for various technologies. “When dose monitoring for cancer treatment, we need high sensitivity photon detection […]
January 24, 2023
New Physics specialization prepares MSc students for quantum technology future
Wednesday, November 2, 2022 The new Physics course-based MSc with a specialization in Quantum Technology enables students to study quantum concepts in theory, and practice them in a hands-on, collaborative environment. After a memorable and inspiring premiere year, the Master of Science Degree in Physics with a specialization in Quantum Technology program has […]
November 3, 2022
Towards large area, resonant quantum tunneling diodes by continuous Langmuir transfer of exfoliated 2D materials
Summary Atomically thin 2D materials constitute promising building blocks for quantum devices due to their exotic, layer-dependent electronic properties. The ability to stack these materials in alternating layers enables heterostructures to be built in almost limitless combinations and over small enough length scales to observe quantum phenomena. So far though, practical implementation of devices based […]
April 1, 2020
Rydberg Atom Array Quantum Simulator
Summary Quantum simulators enable probing the static and dynamic properties of correlated quantum many-body systems that would otherwise be numerically inaccessible using classical simulators. We are developing quantum simulators based on arrays of neutral atoms excited to Rydberg states. Such Rydberg atom arrays are advantageous for simulating the dynamics of interacting spin systems (Ising spin […]
February 27, 2020
Reliably operating noisy quantum computers
Summary The overall goal of the project is to develop practical methods to be able to reliably run useful applications on near-term quantum computers. This requires identifying and overcoming the ubiquitous errors that currently limit quantum computing capabilities. Traditional methods of quantifying errors in quantum computers fail to predict how errors affect the output of […]
January 22, 2020
Quantum Material Multilayer Photonic Devices and Network
Summary Realizing highly integrated quantum photonic devices on a chip can enable new opportunities for photonic quantum computation. In this project, we explore heterostructures of stacked two-dimensional (2D) materials, such transition metal dichalcogenides (TMDC) or graphene, combined with optical microcavities as a platform for such devices. 2D materials are extremely thin and flexible, and have […]
December 12, 2019
Tuning Spin-Exchange Interactions in Low-Dimensional Metal Halide Perovskites: A New Class of Semiconductor Quantum Materials
Summary Leakage current in electronic components is one of the limiting factors for the performance of conventional computers which use charges and currents as physical information carriers. Spintronics offers an alternative by using electron spin for information transfer, processing and storage, enabling the design of non-volatile computer memory and more energy-efficient electronic devices. In this […]
October 1, 2019
Free-space Polarization-selective Microcavity based on Chiral Metasurfaces
Summary Developing a new type of Fabry-Pérot cavity that allows improved control of the atoms’ emission into the cavity mode will result in enhancement of the efficiency and fidelity of quantum state transfer from photons to atoms and back. This in turn can be used to improve the performance of quantum networks and repeaters, as […]
September 19, 2019
Entangled Photon Orbital Angular Momentum Arrays
Summary Arrays of orbital angular momentum (OAM) states of light are a new form of structured light so far relatively unexplored in quantum information science. Unlike spin angular momentum of light, which is related to light’s polarization and covers two dimensions, OAM states, sometimes described as ‘donut beams’ due to the shape of the field […]
September 19, 2019
QuantumIon: an open-access quantum computing platform
Summary Trapped ions are one of the most advanced technologies for quantum computing, offering multi-qubit control in a universal quantum computing architecture and the ability to perform calculations with unprecedented precision. In this project we construct a shared trapped-ion quantum computing platform, QuantumIon, that will enable a broader and interdisciplinary scientific community to access an […]
September 9, 2019
Line-Scanning optical coherence tomography system for in-vivo, non-invasive imaging of the cellular structure and blood perfusion of biological tissue
Summary Optical coherence tomography (OCT) is an optical imaging method that allows for in-vivo, non-invasive imaging of the structure and vasculature of biological tissue. Commercially available, clinical OCT systems utilize point-scanning method to acquire volumetric images over a large surface with typical frame rates of ~ 30 frames/ second. Since living biological tissue is constantly […]
August 27, 2019