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IQC Colloquium on ZOOM - Mark Zhandry, NTT Research

Public verification of quantum money has been one of the central objects in quantum cryptography ever since Wiesner's pioneering idea of using quantum mechanics to construct banknotes against counterfeiting. In this talk, I will discuss some recent work giving both attacks and new approaches to building publicly verifiable quantum money.

Tuesday, April 25, 2023 12:00 pm - 1:00 pm EDT (GMT -04:00)

IQC Student Seminar featuring Emma Bergeron

Development of InSb Surface Quantum Wells for hybrid superconducting device applications. 

Abstract: Surface quantum well (QW) heterostructures in III-V semiconductors are compatible with proximitized superconductivity and offer a scalable planar platform for superconductor-semiconductor systems, such as those suggested for topological quantum computation and those suitable for topological phase transitions involving Majorana zero modes. Amongst III-V binary semiconductors, Indium Antimonide (InSb) has the smallest electron effective mass, highest spin orbit coupling and largest Land´e g-factor. Such material properties makes the pursuit of InSb QWs desirable for a number of quantum device applications, including quantum sensing, quantum metrology, and quantum computing.

Unfortunately, high quality two-dimensional electron gases (2DEGs) in InSb QWs have so far been difficult to realize. InSb QWs have generally relied on the use of modulation doping for 2DEG formation, but these structures have frequently reported issues with parasitic parallel conduction and unstable carrier densities. We report on the transport characteristics of field effect 2DEGs in surface InSb quantum wells which overcome these challenges and are suitable for future hybrid superconducting device applications.

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Wednesday, April 26, 2023 11:00 am - 12:00 pm EDT (GMT -04:00)

Quantum Matters Seminar Series: No, you have not discovered a Majorana Fermion

No, you have not discovered a Majorana Fermion

Abstract: Is what I tell myself. There was a time when I thought I may have discovered it, others did too. Around 2012 several groups including ours found evidence of these quantum excitations in electrical circuits containing nanowires of semiconductor covered by a superconductor. The dramatic signatures were peaks in conductance that appeared under conditions expected from theory for Majorana modes, which are their own anti-modes and may possess non-Abelian properties. But a few years later, similar features in the data were identified due to an interesting, but a more mundane effect - which we call trivial states such as Andreev bound states. Over time more and more data pointed at the trivial and not at the exotic explanation. But because Majorana claims kept coming, this led to some digging and even retractions. What we learned after 10 years is that we have a much better handle on what effects show up in these nanowires, which positions us well for the ultimate Majorana discovery which we should be able to tell apart from all the non-Majorana things we saw. The second lesson we learned is that materials quality of device constituents, superconductors and semiconductors, as well as how samples are fabricated - are the make-or-break factors for making this happen. So while  I cannot report an exciting physics discovery, I can walk you through the scientific process that took place, a 10-year event of independent value which taught me how to do science better.

Thursday, April 27, 2023 12:00 pm - 1:00 pm EDT (GMT -04:00)

Quantum Today: Quantum Energy Teleportation – Activating Ground State Energy

Join us for Quantum Today, where we sit down with researchers from the University of Waterloo’s Institute for Quantum Computing (IQC) to talk about their work, its impact and where their research may lead.

Thursday, April 27, 2023 3:00 pm - 4:00 pm EDT (GMT -04:00)

Any Physical Theory of Nature Must Be Boundlessly Multipartite Nonlocal

IQC CS/Math seminar - Marc-Olivier Renou (INRIA, Paris-Saclay)

Quantum correlations are obtained when multiple parties perform independent measurements on a shared quantum state.  Bell’s seminal theorem proves that certain correlations predicted by quantum theory resist explanations in terms of any Local Hidden Variable theory based on shared randomness. But what about alternative explanations for quantum correlations, in terms of a hypothetical causal theory involving exotic bipartite resources generalising quantum bipartite entanglement in addition to shared randomness? 

Monday, May 15, 2023 2:30 pm - 3:30 pm EDT (GMT -04:00)

Quantum thermal machines at strong coupling

IQC Colloquium - Dvira Segal, University of Toronto

Rethinking the operation principles of thermal machines in the nanoscale and quantum domain, we focus on a continuous machine operating in steady state, the quantum absorption refrigerator (QAR), and examine three key questions: (i) How does the strong system-bath interaction affect the device's operation? (ii) What can we learn about the machine from current noise? (iii) What is the impact of coherences within the working fluid on the performance of the quantum machine? 

Tuesday, May 16, 2023 11:30 am - 12:15 pm EDT (GMT -04:00)

Exploring by the Seat of Your Pants: Photons in Space

In celebration of the International Day of Light on May 16th, Dr. Katanya Kuntz from the IQC will be joining Exploring by the Seat of Your Pants to talk about what light is really made of, how to catch a photon in the sky, and how this technology can be used to keep our communication safe and secure. Katanya coordinates the Science Team for the Quantum Encryption and Science Satellite (QEYSSat) mission, which is building a satellite that can detect individual particles of light called photons sent from the ground to outer space.

Wednesday, May 17, 2023 12:00 pm - 1:00 pm EDT (GMT -04:00)

IQC Student Seminar featuring Brendan Bramman

13-level Qudit Measurement Demonstrated in Trapped Ions

Abstract: Qudits are an interesting alternative to qubits for a number of algorithmic reasons, but for trapped ions they could be a path for scaling. Ion traps are running into limitations on the number of qubits they can confine in a single trap, and using more of the computational space available in the ions to make qudits is an attractive solution. We have proposed using trapped ion qudits in a previous paper, developing all of the necessary quantum information protocols for their implementation. Here, we present an experimental result of a 13-level qudit measurement with a fidelity of 91.3%. The protocol can be used to measure up to a 25-level qudit in barium. The error scaling is not inherent to the dimension of the qudit, so we can envision going to higher dimensions without a significant increase in error.
Thursday, May 18, 2023 10:00 am - 11:00 am EDT (GMT -04:00)

Positive state polynomials

CS/Math seminar - Igor Klep, University of Ljubljana

The talk will discuss state polynomials, i.e., polynomials in noncommuting variables and formal states of their products. The motivation behind this theory arises from the study of correlations in quantum networks. We will give a state analog of Artin's solution to Hilbert's 17th problem showing that state polynomials, positive over all matrices and matricial states, are sums of squares with denominators.