The Poster Session is from 5:00PM to 8:00PM on Tuesday 31 October at Doltone House, Darling Island.
Instructions for Poster Presenters
You will be able to put up your poster from 4:00PM. Each poster has been allocated a number and you should attach your poster to the board corresponding to your number. We will provide you with Velcro dots to attach your poster.
List of Poster Presentations
| 1. | Mark Webster, Armanda Quintavalle and Stephen Bartlett – Diagonal Transversal Logical Operators of Stabiliser Codes |
| 2. | S Nibedita Swain, Ryan Marshman, Peter Rohde, Austin Lund, Alexander Solntsev, Timothy Ralph – Passive error avenging in continuous variable linear optics |
| 3. | Hasan Sayginel, Francois Jamet, Abhiskek Agarwal, Dan Browne and Ivan Rungger – A fault-tolerant variational quantum algorithm with limited T-depth |
| 4. | Fumiya Hanamura, Warit Asavanant, Seigo Kikura, Moeto Mishima, Shigehito Miki, Hirotaka Terai, Masahiro Yabuno, Fumihiro China, Kosuke Fukui, Mamoru Endo and Akira Furusawa – Experimental realization of displacement detection beyond classical limit using single-photon states |
| 6. | Dong E. Liu, Yuanchen Zhao and Yanwu Gu – Coherent Deviations and error threshold theorem in realistic quantum error corrections |
| 7. | Alexander Cowtan and Simon Burton – CSS code surgery as a universal construction |
| 8. | Yanwu Gu and Dong Liu – Benchmarking universal quantum gates via channel spectrum |
| 9. | Theerapat Tansuwannont, Balint Pato and Kenneth R. Brown – Adaptive syndrome measurements for Shor-style error correction |
| 10. | Fernando Pastawski, Daniel Litinski, Naomi Nickerson, Sam Roberts and Hector Bombin – Unifying flavors of fault tolerance with the ZX calculus |
| 11. | Seok-Hyung Lee and Hyunseok Jeong – Graph-theoretical optimization of fusion-based graph state generation |
| 12. | Balint Pato, Theerapat Tansuwannont, Shilin Huang and Kenneth Brown – Optimization tools for distance-preserving flag fault-tolerant error correction |
| 13. | Hudson Leone, Srikara Shankara and Simon Devitt – Resource Estimation for Trapped-Ion Lattice Surgery |
| 14. | Julie Campos and Kenneth Brown – XZZX Deformed Compass Codes |
| 15. | Ryan J. Marshman, Deepesh Singh, Austin P. Lund and Timothy C. Ralph – Unitary Averaging with Fault and Loss Tolerance |
| 16. | Yunzhe Zheng, Johannes Borregaard and Dong Liu – Generation of high-fidelity cluster state concatenated with error detecting codes |
| 17. | Nikolaos Koukoulekidis, Samson Wang, Tom O’Leary, Daniel Bultrini, Lukasz Cincio and Piotr Czarnik – A framework of partial error correction for intermediate-scale quantum computers |
| 18. | Yingjia Lin, Shilin Huang and Kenneth R. Brown – Single-shot Error Correction on Toric Codes |
| 19. | Xi Yu, Jonathan Gross, Benjamin Wilhelm and Andrea Morello – Icosohedral operations on logical qubits encoded in high-spin nuclei |
| 20. | Jannis Ruh and Simon Devitt – Pauli tracking based optimizations in MBQC |
| 21. | Shoichiro Tsutsui and Keita Kanno – Fault-tolerant quantum computation with the bit-flip code |
| 22. | Annie Ray, Raymond Laflamme and Aleksander Kubica – Protecting information via probabilistic cellular automata |
| 23. | Armands Strikis, Simon Benjamin and Benjamin Brown – Quantum computing is scalable on a planar array of qubits with fabrication defects |
| 24. | Anqi Gong and Joseph Renes – Improved Logical Error Rate via List Decoding of Quantum Polar Codes |
| 25. | Bence Hetényi and James R. Wootton – Tailoring quantum error correction to spin qubits |
| 26. | Hoang Long My Duy, Akshaya Jayashankar, Hui Khoon Ng and Prabha Mandayam – Fault tolerance against amplitude-damping noise using Bacon-Shor code: A scale up |
| 27. | Debjyoti Biswas, Gaurav Vaidya and Dr. Prabha Mandayam – Noise-adapted recovery circuits for quantum error correction |
| 28. | Yingkai Ouyang and Gavin Brennen – Quantum error correction on symmetric quantum sensors |
| 29. | Eren Guttentag and Andrew Nemec – Robust Syndrome Extraction via BCH Encoding |
| 30. | Thomas Stace, Caroline Mauron and Terry Farrelly – Optimization of Tensor Network Codes with Reinforcement Learning |
| 31. | Yongsoo Hwang – Circuit Synthesis for Fault-Tolerant Quantum Computing |
| 32. | Yoshifumi Nakata, Takaya Matsuura and Masato Koashi – From decoders for classical information to a decoder for quantum information |
| 33. | Hidetaka Manabe, Yasunari Suzuki and Andrew S. Darmawan – Efficient Simulation of Leakage Errors in Quantum Error Correcting Codes Using Tensor Network Methods |
| 34. | Spiro Gicev, Lloyd Hollenberg and Muhammad Usman – Neural Network Processing of Syndrome Measurement Data for Quantum Error Correction |
| 35. | Jason Gavriel, Samuel Elman, Simon Devitt and Michael Bremner – Resource Estimation for Fault-Tolerant Quantum Supremacy via Algorithm-Specific Graph Execution |
| 36. | Dolev Bluvstein, Hengyun (Harry) Zhou , Simon Evered, Sepehr Ebadi, Tom Manovitz, Sophie Li, Alexandra Geim, Tout Wang, Marcin Kalinowski, Nishad Maskara, Maddie Cain, Harry Levine, Qian Xu, Pablo Bonilla, Chris Pattison, Nithin Raveendran, Jonathan Wurtz, Chen Zhao, Casey Duckering, Giulia Semeghini, Liang Jiang, Markus Greiner, Vladan Vuletic and Mikhail Lukin – New Frontiers of Error Correction with Neutral Atom Quantum Processors |
| 37. | Xanda Kolesnikow, Raditya Bomantara, Andrew Doherty and Arne Grimsmo – Gottesman-Kitaev-Preskill state preparation using periodic driving |
| 38. | Srikara Shankara, Hudson Leone, Peter Rohde, Alexander Solnstev, Thinh Le and Simon Devitt – Quantum Entanglement Distribution via Entanglement Swapping through Uplink Satellite Transmission |
| 39. | Aswanth Thamadathil and Sowrabh Sudevan – Encoding Qubits into a 2D-Uniform Code Space using D−Dimensional Cluster States |
| 40. | Gözde Üstün, Andrea Morello and Simon Devitt – High-dimensional Antimony Atoms in Silicon for Photonic Entangled State ‘Machine Gun’ Quantum Error Correction |
| 41. | Felix Thomsen, Thomas Smith and Andrew Doherty – Fault-tolerant gates for protected qubits |
| 42. | Guo Zheng, Wenhao He, Gideon Lee, Kyungjoo Noh and Liang Jiang – Near-optimal recovery for the Gottesman-Kitaev-Preskill codes |
| 43. | Thomas Scruby and Kae Nemoto – Local Probabilistic Decoding of a Quantum Code |
| 44. | Lawrence Cohen and Dominic Williamson – 1-form symmetry-protected resource states for fault-tolerant measurement-based quantum computing |
| 45. | Shin Nishio, Thomas Scruby, Nicolo Lo Piparo, William Munro and Kae Nemoto – Surface Code Communication with Quantum Multiplexing |
| 46. | Shin Nishio, Thomas Scruby, Nicolo Lo Piparo, William Munro and Kae Nemoto – Surface Code Communication with Quantum Multiplexing |
| 47. | Ish Dhand, Milan Holzaepfel, Shreya Prasanna Kumar, Carlos Diaz Lopez, Marcello Massaro, Matteo Santandrea, Varun Seshadri, Antal Száva, Trevor Vincent and Raphael Weber – Plaquette – Software tools for quantum error correction and fault tolerance research |
| 48. | Thomas Scruby and Joschka Roffe – Designing and Decoding Quantum LDPC Codes for Near-Term Hardware |
| 49. | Laura Caune, Joan Camps, Brendan Reid and Earl Campbell – Belief propagation as a partial decoder |
| 50. | Anthony O’Rourke and Simon Devitt – Optimising the Rotated and Unrotated Surface Code and Quantifying their Difference in Logical Quantum Error Suppression. |
| 51. | Maryam Mudassar, Riley Chien and Daniel Gottesman – Encoding Majorana codes |
| 52. | Yang Wang, Selwyn Simsek and Ben Criger – Fault-Tolerant One-Bit Addition with the Smallest Interesting Colour Code |
| 53. | Nouédyn Baspin, Venkatesan Guruswami, Anirudh Krishna and Ray Li – Improved rate-distance tradeoffs for quantum codes with restricted connectivity |
| 54. | Sourav Dutta, Debjyoti Biswas and Prabha Mandayam – Approximate Quantum Error Correction Code for Qudits against Amplitude Damping Noise |
| 55. | Christopher Pattison, Michael Beverland, Marcus da Silva and Nicolas Delfosse – Improved quantum error correction using soft information |
| 56. | Xiaozhen Fu and Daniel Gottesman – Floquet Code as Code Deformation |
| 57. | Andrew Darmawan – Determining critical noise parameters for surface-code decoders using tensor-network methods |
| 58. | Shi Jie Samuel Tan, Christopher Pattison and John Preskill – Resilience of the surface code to error bursts |
| 59. | Alexis Schotte, Lander Burgelman and Guanyu Zhu – Fault-tolerant error correction for a universal non-Abelian topological quantum computer at finite temperature |
| 60. | Thomas Smith, Felix Thomsen and Andrew Doherty – Gates for protected superconducting qubits via their internal modes |
| 61. | Darcy QC Morgan and Simon J Devitt – Real-time linear optical lattice renormalisation |
| 62. | Vassili Matsos, Christophe Valahu, Tomas Navickas and Ting Rei Tan – Deterministic State Preparation of Bosonic Codes with Dynamic Modulation in Trapped Ions |
| 63. | Abhijeet Alase, Kevin D. Stubbs, Barry C. Sanders and David L. Feder – Suppression of Pauli errors in Majorana qubits via quasiparticle detection |
| 64. | Basudha Srivastava, Yinzi Xiao, Anton Frisk Kockum, Ben Criger and Mats Granath – Two-level decoding schemes for the XYZ^2 hexagonal stabilizer code |
| 65. | Kosuke Fukui, Takaya Matsuura and Nicolas Menicucci – An efficient, concatenated, bosonic code for additive Gaussian noise |
| 66. | Manoj G. Gowda and Pradeep Kiran Sarvepalli – Twist-based quantum computation in qudit color codes |
| 67. | Mats Granath, Basudha Srivastava, Moritz Lange and Evert van Nieuwenburg – Decoding stabilizer codes with graph neural networks |
| 68. | Gyorgy Pal Geher, Ophelia Crawford and Earl T. Campbell – Tangling schedules eases hardware connectivity requirements for quantum error correction |
| 69. | Lukas Devos – Characterizing quantum memories by exploiting categorical symmetries |
| 70. | Eric Huang, Arthur Pesah, Christopher Chubb, Michael Vasmer and Arpit Dua – Tailoring three-dimensional topological codes for biased noise |
| 71. | George Umbrarescu, Oscar Higgott and Dan Browne – (In)finite Distance Extrapolation: how error mitigation complements quantum error correction |
| 72. | Hunter Nelson and Edwin Barnes – Designing dynamically corrected gates robust to multiple noise sources using geometric space curves |
| 73. | Jiaxin Huang, Sarah Meng Li, Lia Yeh, Aleks Kissinger, Michele Mosca and Michael Vasmer – Graphical CSS Code Transformation Using ZX Calculus |
| 74. | Jiaxin Huang, Sarah Meng Li, Lia Yeh, Aleks Kissinger, Michele Mosca and Michael Vasmer – Pushing Through the Encoder: Graphical Derivations of Fault-Tolerant Operations on CSS Codes |
| 75. | Christophe Piveteau, Christopher T. Chubb, Joseph M. Renes – Tensor Network Decoding Beyond 2D |
| 76. | Cole E. Maurer, Andrew J. Landahl – A Fast Renormalization-Group Tensor-Network Decoder for Planar Quantum Low-Density Parity Check Codes |
| 77. | Benjamin C. A. Morrison, Andrew J. Landahl – Logical Majorana Fermions for Fault-Tolerant Quantum Simulation |
| 78. | Mason L. Rhodes, Michael Kreshchuk, Andrew J. Landahl – Solving Relativistic Bound-State Problems in QCD with a Fault-Tolerant Quantum Computer |
| 80. | Mackenzie H Shaw, Andrew C Doherty, Arne L Grimsmo – Analysing loss and dephasing in GKP codes with random displacement channels |
| 81. | Evan T. Hockings, Andrew C. Doherty, Robin Harper – Scalable surface code noise characterisation with averaged eigenvalue sampling |
| 82. | Sam Smith – Surface code depolarizing thresholds of 50% with post-selection |
| 83. | Youwei Zhao et al – Realization of an Error-Correcting Surface Code with Superconducting Qubits |
| 84. | Yangsen Ye et al – Logical Magic State Preparation with Fidelity Beyond the Distillation Threshold on a Superconducting Quantum Processor |
| 85. | Yuanchen Zhao and Dong Liu – The relation between Knill-Laflamme condition and error threshold |
| 87. | Asmae Benhemou, Kaavya Sahay, Lingling Lao and Benjemin J Brown – Minimising failures for the surface code using a color-code decoder |
| 88. | S. Edgar Tanuarta, Andrew C. Doherty and Salini Karuvade – Damped Gyrator for GKP-Encoding Qubit |
| 89. | Andrew Nemec and Theerapat Tansuwannont – A Hamming-Like Bound for Degenerate Stabilizer Codes |
| 90. | Nicholas Fazio, Robin Harper, Stephen D. Bartlett ” – Constraints on Logical Noise Bias in Magic State Injection” |
| 91. | Dominic Williamson and Nouédyn Baspin – Layer Codes |
| 92. | Juliette Soule, Arne Grimsmo and Andrew C Doherty – Concatenating Binomial Codes with the Planar Code |
| 93. | Eren Guttentag and Andrew Nemec – Robust Syndrome Extraction via BCH Encoding |
| 94. | Li Rao |
| 95. | Mauricio Gutierrez, Ted Chang, David Obando, and Juan S. Rojas-Arias – Feasibiilty of implementing small QEC codes with two qubit encoding schemes on a spin-based quantum computer |
| 96. | Weilei Zeng, Yayun Hu, Eric Sabo, Leonid P. Pryadko & Kenneth R. Brown – Subsystem Product Codes with High Thresholds under Biased Noise |
| 97. | Bohan Lu, Arthur Pesah, Joschka Roffe and Nithin Raveendran – Improved decoding of quantum LDPC codes using neural-network enhanced belief propagation |
| 98. | Mark Webber, Vincent Elfving, Sebastian Weidt and Winfried Hensinger – The Impact of Hardware Specifications and Physical Connectivity on Reaching Quantum Advantage in the Fault Tolerant Regime |