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Thursday, November 17, 2022 2:00 pm - 3:00 pm EST (GMT -05:00)

Improved Approximation Algorithm for Quantum Max-Cut

IQC Student Seminar Featuring - Robbie King, Caltech - ZOOM

It is impossible to solve the local Hamiltonian problem exactly, assuming P is not equal to QMA. Instead, one can ask for approximation algorithms, which output states achieving good energy uniformly across all instances. Semi-definite programming (SDP) has achieved great success in approximation algorithms for classical constraint satisfaction. But how can we round the SDP to an entangled quantum state? Variational quantum algorithms can capture entangled quantum states. ...

Thursday, November 17, 2022 4:00 pm - 5:00 pm EST (GMT -05:00)

Quantum State Characterization for Benchmarking NISQ Devices

ZOOM online Seminar Featuring Ahmad Farooq, Ph.D. - Kyung Hee University

Reliable and efficient reconstruction of the quantum states under the processing of noisy measurement data is a vital tool in fundamental and applied quantum information sciences owing to communication, sensing, and computing. Noisy intermediate-scale quantum (NISQ) computers are expected to perform tasks that surpass the capability of the most powerful classical computers available today. ...

Wednesday, November 23, 2022 12:00 pm - 1:00 pm EST (GMT -05:00)

IQC Student Seminar featuring an Impromptu Poster Session

Impromptu Poster Session

Please join us for the IQC Student Seminar on Wednesday Nov 23 at noon. This week’s seminar will take place in the form of an impromptu poster practice session, where students will discuss interesting research on the whiteboard. This is to encourage students to talk about their work in progress, while practicing communication skills by presenting to non-experts. It's also a great way to learn how big the field of quantum research is! No prior preparation is necessary.

As always, pizza lunch will be provided to attendees.

Monday, November 28, 2022 2:30 pm - 3:30 pm EST (GMT -05:00)

quDit entanglement from coherent states by Kerr nonlinearity

IQC Colloquium featuring Professor Jaewan Kim, Professor/Vice-President of Korea Institute for Advanced Study (KIAS), President of Quantum Information Society of Korea (QisK)

A coherent state can be interpreted as a superposition of pseudo-number states with equal weight. Using cross-Kerr nonlinearity two coherent states can be made into a maximal entanglement of pseudo-number states and pseudo-phase states. Some applications of the entanglements of pseudo-number/phase states, such as quDit teleportations, will be discussed.

Wednesday, November 30, 2022 12:00 pm - 1:00 pm EST (GMT -05:00)

IQC Student Seminar featuring Amolak Ratan Kalra

Categories of Kirchoff Relations

Abstract: I will be talking about the connections between electrical circuits and stabilizer qudit quantum circuits with an eye towards applications to qudit quantum error correction. More formally I will be defining a category dubbed Kirchhoff relations and characterize the maps in this category using parity check matrices. I will then go on to give a universal set of generators for this category and interpret these generators in-terms of electrical elements.

This is work in progress.

The main technical reference is the following paper: https://arxiv.org/pdf/2205.05870.pd
Thursday, December 1, 2022 12:00 pm - 1:00 pm EST (GMT -05:00)

Quantum Perspectives: Simulation

Quantum mechanics is the most successful theory of physics, giving us the rule book to model phenomenon at the sub-microscopic scale. Knowing the rule book doesn’t necessarily mean it’s easy to follow though. Calculating and modelling quantum systems like complex molecules or materials is computationally demanding for modern computers. However, by mimicking the system of interest with another quantum system, we can explore their properties efficiently and learn a great deal about quantum mechanics itself.

Friday, December 2, 2022 10:30 am - 11:30 am EST (GMT -05:00)

The SuperCDMS experiment at SNOLAB

Seminar Presentation by Richard Germond, Queen's University

A number of astrophysical and cosmological observations suggest that roughly 85% of the matter in the Universe is composed of dark matter, presumed to be a particle outside the standard model of particle physics. Direct detection experiments look for signatures of a dark matter particle scattering with a sensitive detector; of the different technologies used for this, cryogenic detectors are well-suited for detecting low-mass dark matter due to their low energy thresholds.

Wednesday, December 7, 2022 12:00 pm - 1:00 pm EST (GMT -05:00)

IQC Student Seminar featuring Fiona Thompson

Introduction to Majorana Topological Qubits

Abstract: This presentation will introduce some of the experimental approaches to building topological qubits and the theories supporting current research. Beginning from the early toy models that first proposed the formation of Majorana bound states, I aim to convey an understanding of why topological qubits are so resistant to decoherence. I will introduce the “ingredients” necessary to build a Majorana device and some of the challenges involved. Finally, I will discuss the field's current state and what might be next on the journey to making topological quantum computing a reality. Neither an understanding of topology nor quantum algorithms are necessary to enjoy this talk!

Tuesday, December 13, 2022 3:30 pm - 4:30 pm EST (GMT -05:00)

Generating k EPR-pairs from an n-party resource state

IQC Math CS Seminar - featuring Mario Szegedy, Rutgers University

Motivated by quantum network applications over classical channels, we initiate the study of n-party resource states from which LOCC protocols can create EPR-pairs between any k disjoint pairs of parties. ...

Wednesday, December 14, 2022 2:30 pm - 3:30 pm EST (GMT -05:00)

Complexity and Clarity for Kitaev Candidate Materials

Chemistry Seminar Series – Steve Winter, Wake Forest University

Host: A. Wei Tsen

Quantum materials represent a broad class of systems whose experimental response relies directly on entanglement between their underlying degrees of freedom. Modeling of such materials presents a variety of challenges related to a disparate variety of complex behaviours that manifest at different energy scales, and a typical sensitivity of responses to model parameters. In this field, first-principles approaches often provide a vital bridge between experiments and theoretical models. In this talk, I will introduce our numerical strategies for systematically building low-energy models with local charge, spin, and orbital degrees of freedom of arbitrary complexity. I will discuss the insights that these methods have yielded for frustrated magnetic insulators collectively known as "Kitaev materials", which have prompted a recent explosion of interest in quantum magnets where spin-orbit coupling induces strongly anisotropic and competing magnetic interactions. I will specifically address our recent attempts to understand the magnetic models of few-layer RuCl3 and high-spin d7 Co(II) compounds, which have recently been identified as possible alternative platforms for realising the celebrated Kitaev model.