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🔔 Poster Submission
The participants who would like to deliver a Poster during the Tensor Network States: Algorithms and Applications (TNSAA 2025) shall submit a TITLE and ABSTRACT in the questionnaire at (https://forms.gle/nv9Zg9QvUCjU61TK7) before 15th of November 2025. All of the talks submitted by the deadline (October 31st) will be considered and examined. The approved ones will be contacted by email before October 31st.
We look forward to receiving your talk submissions.
| Poster Presentation | |||
| No | Name | Affiliation | Title |
| 1 | Md Zahid Ansari | NYCU | Ground-state phase diagram of the Hubbard model with hopping modulation in the y-direction |
| 2 | Heitor Peres Casagrande | Okinawa Institute of Science and Technology | Fractal Path Strategies for Efficient 2D DMRG Simulations |
| 3 | QianCan Chen | NYCU | Solving the Gross-Pitaevskii Equation with Quantic Tensor Trains: Ground States and Nonlinear Dynamics |
| 4 | Adil Gangat | NTT Research, Inc. | Weak first-order phase transitions in the frustrated square lattice J1-J2 classical Ising model |
| 5 | Shimpei Goto | The University of Tokyo | Matrix-product-state simulations for waveguide systems composed of several qubits in real space |
| 6 | Qian-Rui Huang | Institute of Atomic and Molecular Sciences, Academia Sinica | DMRG Implementation for Anharmonic Vibrational Analysis Using Discrete Variable Representation |
| 7 | Hao-Ti Hung | National Taiwan University | Solving Partial Differential Equations in Polar Coordinates Using the Quantic Tensor Train Representation |
| 8 | Kiyeon Kim | Seoul national university | Clebsch–Gordan coefficients without floating-point error: toward a non-Abelian-symmetric tensor library |
| 9 | Roman Krcmar | Institute of Physics, Slovak Academy of Sciences | Non-unitary disentanglers |
| 10 | Takaaki Kuwahara | Kyoto University | Tensor renormalization group analysis of correlators in Yang-Mills theory |
| 11 | Sung-Bin B. Lee | Seoul National University | Contracting two-dimensional random IQP circuits is not as hard as it may seems |
| 12 | Tai-Yue Li | NCHC | Scalable Grover’s Algorithm Simulation via Matrix Product States |
| 13 | Taisei Matsuo | Institute of Science Tokyo | Tensor Renormalization Group Analysis of Phase Transition in Random tensor network model |
| 14 | Satoshi Morita | Keio University | Tensor Network Verification of the Universal Value of Partition Function Ratios |
| 15 | Hidehiro Saito | The University of Tokyo | Exact tensor network description of Kitaev honeycomb model |
| 16 | Sota Shimozono | The University of Tokyo | Restoring Bulk Translational Symmetry in Finite Matrix Product States via Environmental Embedding |
| 17 | Jean-Baptiste Touchais | Université Paris-Saclay | Robust propagating in-gap modes due to spin-orbit domain walls in graphene and Chiral chains with two valleys and disorder of finite correlation length |
| 18 | SHENGCHIEH TSENG | NTU physics | Speeding Up PennyLane Simulations: Benchmarking Devices and Boosting with Batch Execution |
| 19 | Yu-Chin Tzeng | NYCU | Dissociation of bulk and entanglement phase transitions in the Haldane phase |
| 20 | CHANG RAN-YU | NCHC | DFT-TN-VQE: Tensor-Network Compression and Hybrid VQE at Materials Scale |
| 21 | 葉宥辰 | NTHU | CudaqToEinsum: Scalable and Efficient Translation of Quantum Circuits into Tensor Networks for Large-Scale Quantum Computing |
