Monday Poster Session
Date: Monday Sept 30
Time: 3:00 - 5:00 pm
NOTE: Posters for the Monday session should be left up until Tuesday 5pm.
Wednesday Poster Session
Date: Wednesday October 2
Time: 3:30 - 5:00 pm
NOTE: Posters for the Wednesday session should be left up until Thursday 5pm.
Guidelines for accepted poster presenters:
- Boards will be set up the morning of Monday Sept 30 in the Perimeter Institute Atrium
- There is no set assignment; presenters can choose any available board
- Maximum poster dimensions are 4 ft (h) x 3 ft (w)
- Boards are set up to display vertical posters (portrait style, not landscape)
- Conference organizers can't assist with poster printing.
- We recommend you bring your poster with you, but if you need to print locally we recommend the following printers:
- https://conferenceposters.ca
- This printer will deliver direct to PI. You can request delivery "c/o Conference Services" and the poster will be delivered to our Conference Services team for you to collect upon arrival at PI.
- UPS Store, 133 Weber ST N, https://www.theupsstore.ca/70/
- Print Integrity - 465 Philip St. N, http://www.printintegrity.com
- https://conferenceposters.ca
Monday
| Nadeem | Akhlaq | Quantum Dot Molecules: Growth, Characterisation and Example Use Cases |
| Afshin | Besharat | Effective Theory of Dissipative Quantum Mechanics |
| Lukas | Brenner | Integer factorization with GKP states |
| Carolin | Calcagno | Dynamically Dressed States of a Quantum Four-Level System |
| Giovanni | Canossa | Self-dual Fracton Models: new candidates for Quantum Computation |
| Yale | Cheng | Typical entanglement entropy in systems with particle-number conservation |
| Jacopo | De Santis | Realising fast readout for Rydberg arrays |
| Emiliia | Dyrenkova | Error Mitigation for Compact Fermion-to-Qubit Mapping |
| Alexander | Frei | TBA |
| Miguel | Frias Perez | New methods for long-time dynamics with tensor networks |
| Lukas | Hanschke | Reappearance of Rabi Oscillations |
| Emilie | Huffman | Quantum Simulation of an SO(3)-symmetric QCD-relevant Toy Model with Fermions |
| Reinis | Irmejs | Efficient Quantum Algorithm for Filtering Product States |
| Megan Schuyler | Moss | Data-enhanced variational Monte Carlo simulations of a topological spin liquid on the ruby lattice |
| Jinglei | Zhang | Simulating 2D lattice gauge theories on a qudit quantum computer |
| Artem | Zhutov | Expanding the Class of Accessible Models with Dynamic Connectivity in Quantum Simulators |
Wednesday
| Annabelle | Bohrdt | Machine learning methods for quantum many-body systems |
| Soroush | Khoubyarian | Improving the Performance of Rydberg Atom Array Quantum Simulators through Low-Latency Feedback Control Systems |
| Marc | Langer | Gaining confidence on the correct realization of arbitrary quantum computations |
| Isabel Nha Minh | Le | Classically optimized quantum simulation of fermionic systems |
| Simon Mathias | Linsel | ARPES spectroscopy of an extended Majumdar-Ghosh model |
| Sirui | Lu | Variational Neural and Tensor Network Approximation of Thermal States |
| Benjamin | MacLellan | Variational quantum sensing |
| Anastasiia | Mashko | A Shared-Access Quantum Simulator for Modeling Quantum Materials: Enhancing Operational Capability for Scientific Exploration |
| Daniel | Molpeceres | Quantum Cooling Algorithms |
| Kevin | Mours | Neutral-Atom Quantum Computing Demonstrator |
| Luca | Muscarella | Towards a hybrid fermionic quantum processor in an optical lattice |
| Friedrich | Sbresny | Stimulated Generation of Indistinguishable Single Photons from a Quantum Ladder System |
| Benjamin | Schiffer | Constrained proliferation of a single error in the quantum adiabatic algorithm |
| Hendrik | Timme | A hybrid lattice-tweezer quantum simulator |
| Kent | Ueno | Engineering Perfect Transport in Spin Chains |
| Melissa | Will | Hilbert Space Fragmentation and Hybrid Hydrodynamics in a Bose Hubbard Model |
| Emily | Wright | Noise informed optimal control for superconducting qubits |
| Christopher | Wyenberg | Dephasing channel for predictive modeling of spin-motion entanglement in blockaded Rydberg atom quantum simulation |
