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Battling Quantum Decoherence, One Flat Band At A Time

Battling Quantum Decoherence, One Flat Band At A Time

Thursday, April 24, 2025   Researchers establish a novel way to strengthen electron correlations by controlling flat band electronic structures in Transition Metal Dichalcogenide.   Quantum decoherence is often a challenge that quantum scientists seek to mitigate. When an object loses its quantum properties and starts behaving like a classical object (i.e. ordinary objects whose […]

April 24, 2025

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The Second PVD Seminar Engages the IQC Community

The Second PVD Seminar Engages the IQC Community

The Second PVD Seminar Engages the IQC Community Event held on Tuesday, April 1, 2025   On Tuesday, the Quantum-Nano Fabrication and Characterization Facility (QNFCF) and Transformative Quantum Technologies (TQT) hosted the Physical Vapour Deposition (PVD) Seminar: Part 2, joined by speaker Mike Miller (Angstrom Engineering). The seminar saw over 40 attendees, including students, postdoctoral […]

April 1, 2025

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New funding set to accelerate Canada’s quantum industry capabilities

New funding set to accelerate Canada’s quantum industry capabilities

New funding set to accelerate Canada’s quantum industry capabilities March 17, 2025   Waterloo research project gets a million dollars to improve quantum measurement tools   A research project led by Institute for Quantum Computing (IQC) faculty Dr. David Cory, professor in the Department of Chemistry, has received $1 million to advance quantum metrological standards. The project […]

March 17, 2025

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Mastering Electrical Characterization Seminar

Mastering Electrical Characterization Seminar Event to be held on Tuesday, May 27, 2025, 9:00 AM – 1:00 PM, QNC 1501   The Quantum Nano Fabrication and Characterization Facility (QNFCF),  Transformative Quantum Technologies (TQT) and Testforce will be hosting an Electrical Characterization Seminar joined by a Keithley Applications Engineer, who will explore the challenges and best […]

April 21, 2025

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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

Physical Vapour Deposition (PVD) Seminar: Part 2

Physical Vapour Deposition (PVD) Seminar: Part 2 Event to be held on Tuesday, April 1, 2025, 10:00 AM – 2:30 PM, QNC 0101.   Building upon the knowledge from the Physical Vapour Deposition (PVD) Introductory Seminar – which introduced film growth techniques and potential applications – the Quantum – Nano Fabrication and Characterization Facility (QNFCF) […]

March 11, 2025

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PVD seminar introduces film growth techniques and potential applications

PVD seminar introduces film growth techniques and potential applications

PVD seminar introduces film growth techniques and potential applications Event held on Wednesday, January 29, 2025   Last week, the Quantum-Nano Fabrication and Characterization Facility (QNFCF) and Transformative Quantum Technologies (TQT) hosted the Physical Vapour Deposition (PVD) Introductory Seminar, joined by speaker Mike Miller (Angstrom Engineering). The seminar, aimed at those with little to no […]

February 5, 2025

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Reflecting on a year of community, growth and milestones at the Institute for Quantum Computing

Reflecting on a year of community, growth and milestones at the Institute for Quantum Computing

Reflecting on a year of community, growth and milestones at the Institute for Quantum Computing Wednesday, December 18, 2024   As the year draws to a close, we reflect proudly on the accomplishments of the Institute for Quantum Computing’s (IQC) community of researchers, postdoctoral fellows and graduate students for their research excellence, academic achievements and […]

December 18, 2024

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Students with interdisciplinary backgrounds harness the second quantum revolution

Students with interdisciplinary backgrounds harness the second quantum revolution

Students with interdisciplinary backgrounds harness the second quantum revolution Monday, December 9, 2024 En Français   Graduates and program leaders of IQC’s Master of Science degree in Physics with a specialization in Quantum Technology explain the purpose and benefits of the program.   The International Year of Quantum Science and Technology (IYQ) is just around the corner […]

December 9, 2024

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Waterloo researchers advance nanoscale imaging capabilities

Waterloo researchers advance nanoscale imaging capabilities

Thursday, August 22, 2024   Dynamic nuclear polarization and nanometer-scale magnetic resonance imaging creates unprecedented opportunities to study biological structures   Dynamic nuclear polarization (DNP) has revolutionized the field of nanoscale nuclear magnetic resonance (NMR), making it possible to study a wider range of materials, biomolecules and complex dynamic processes such as how proteins fold […]

August 22, 2024

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A brain-inspired iontronic platform that mimics hardware-based artificial intelligence

A brain-inspired iontronic platform that mimics hardware-based artificial intelligence

Wednesday, August 7, 2024   Researchers supported by Transformative Quantum Technologies (TQT) have demonstrated an iontronic platform that is configurable to mimic neuromorphic functions on a hardware level.   With the rise of artificial intelligence (AI), Internet of Things (IoT), and big data technologies, coupled with the limitations posed by the von Neumann architecture, neuromorphic […]

August 7, 2024

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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

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Building Blocks for Quantum Neuromorphic Computing: Superconducting Quantum Memcapacitors
TQT Computation

Building Blocks for Quantum Neuromorphic Computing: Superconducting Quantum Memcapacitors

Quantum neuromorphic computing (QNC) is a novel method that combines quantum computing with brain-inspired neuromorphic computing. Neuromorphic computing performs computations using a complex ensemble of artificial neurons and synapses (i.e., electrical circuits) to emulate the human brain. QNC may lead to a quantum advantage by realizing these components with quantum memory elements, or memelements, which […]

June 12, 2023

PI: Matteo Mariantoni

Skip Tags computation entanglement + 2 Additional

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Enabling Next-Generation Sustainable Computing through Novel Multi-Valued-Logic Quantum Devices
TQT Computation

Enabling Next-Generation Sustainable Computing through Novel Multi-Valued-Logic Quantum Devices

As the demand for digital services grows, so does the need for data centres and transmission networks. Unfortunately, these data systems consume vast amounts of energy, resulting in nearly 1% of all energy-related greenhouse gas emissions. This project aims to invent novel quantum devices for highly energy-efficient computing that may help reduce the global digital […]

June 12, 2023

PI: Youngki Yoon

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Micro-Supercapacitors Based on Termination Optimized MXene Quantum Dots with Ultra-High Rate Capability and Fast Frequency Response

Micro-Supercapacitors Based on Termination Optimized MXene Quantum Dots with Ultra-High Rate Capability and Fast Frequency Response

Micro-supercapacitors (MCs) are miniaturized energy storage devices that can enhance the performance of wearable health devices, medical implants, wireless sensors, and micro-electromechanical systems due to their fast frequency response, long life cycle, and vast temperature operation. However, to make these MC systems into commercially feasible products, necessary improvements to current MC performance are necessary, primarily […]

June 12, 2023

PI: Aiping Yu

Skip Tags Applied Carbon Nanotechnology Lab energy + 2 Additional

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Structured Light Applications in Vision Science
TQT Sensing

Structured Light Applications in Vision Science

Eye diseases such as macular degeneration can have a devastating impact on quality of life. Early detection and treatment are thus crucial for preventing irreversible vision loss. A previous study found that the human eye can detect differences in ‘structured’ light beams. Such light beams are composed of a coherent superposition of differently polarized planar […]

April 24, 2023

PI: Ben Thompson

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Photonic Quantum Processor
TQT Computation

Photonic Quantum Processor

Photonic quantum processors based on integrated quantum photonic circuits require entangled photon pairs to perform quantum computations. However, current state-of-the-art technologies utilize probabilistic entangled photon sources with limited pair-extraction efficiencies, negatively affecting the computation speed. This project aims to boost the speed of on-chip quantum operations by using bright, on-demand entangled photon sources with an […]

April 24, 2023

PI: Michael Reimer

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Spin Generation and High-Frequency Detection via the Quantum Nonlinear Anomalous Hall Effect in Weyl Semimetals
TQT Sensing

Spin Generation and High-Frequency Detection via the Quantum Nonlinear Anomalous Hall Effect in Weyl Semimetals

In magnetic conductors, the passage of current yields an electric field in the transverse direction even without an external magnetic field – this is known as the anomalous Hall effect (AHE). This effect can act as a convenient probe of spin ordering, magnetic textures, spin-orbit coupling, and band topology in solids, and can be further […]

April 19, 2023

PI: Adam Wei Tsen

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Visible wavelength external cavity diode lasers in photonic integrated circuits for atomic technologies

Visible wavelength external cavity diode lasers in photonic integrated circuits for atomic technologies

Atoms can be controlled by manipulating their internal states using agile, quiet and reliable laser sources. An external-cavity diode laser (ECDL) is a crucial enabling technology to realize such laser sources since it allows for the narrowing of the linewidth of a laser diode and precise tuning of the laser frequency. This project aims to […]

April 19, 2023

PI: Matthew Day

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Identifying the Potential of Quantum Dots to Detect and Disrupt Tau Protein Aggregation in Alzheimer’s Disease

Identifying the Potential of Quantum Dots to Detect and Disrupt Tau Protein Aggregation in Alzheimer’s Disease

Specific tests for Alzheimer’s disease (AD) diagnosis are currently unavailable, despite AD being the leading cause of dementia. One hallmark of AD progression is the aggregation of tau proteins into paired helical filaments and neurofibrillary tangles, which is accelerated by the hyperphosphorylation of Tau proteins. However, the mechanism by which the hyperphosphorylated tau accelerates protein […]

March 27, 2023

PI: Subha Kalyaanamoorthy

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Coherent magnon generation, magnon condensation, and quantum spin liquids via spin pumping in 2D magnets
TQT Computation

Coherent magnon generation, magnon condensation, and quantum spin liquids via spin pumping in 2D magnets

Summary  Developing hybrid quantum systems is essential to harnessing the complementary advantages of different quantum technology platforms. This necessitates the successful transfer of quantum information between platforms, which can be achieved, e.g., by harnessing magnons, or spin wave excitations, in magnetic materials. Decoherence due to uncontrolled coupling of qubits to the environment remains a fundamental […]

February 1, 2023

PI: Adam Wei Tsen

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