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Email: j [dot] osborne [at] student [dot] uq [dot] edu [dot] au
I am currently a physics PhD student at the University of Queensland specializing in using matrix-product-state computational methods for solving quantum many-body problems. My current research interests are in developing novel methods for analysing excitations in a variety of models, from spin chains and condensed matter systems to lattice gauge theories.
N. S. Srivatsa, Jesse J. Osborne, Debasish Banerjee, and Jad C. Halimeh
Bosonic vs. Fermionic Matter in Quantum Simulations of 2+1D Gauge Theories
Preprint: arXiv:2504.17000
Huan-Qiang Zhou, Jesse J. Osborne, Qian-Qian Shi, and Ian P. McCulloch
Emergent Goldstone flat bands and spontaneous symmetry breaking with type-B Goldstone modes
Preprint: arXiv:2502.14605
Umberto Borla, Jesse J. Osborne, Sergej Moroz, and Jad C. Halimeh
String Breaking in a 2+1D Z2 Lattice Gauge Theory
Preprint: arXiv:2501.17929
Jared Jeyaretnam*, Tanmay Bhore*, Jesse J. Osborne, Jad C. Halimeh, and Zlatko Papić
Hilbert space fragmentation at the origin of disorder-free localization in the lattice Schwinger model
Commun. Phys. 8, 172 (2025), arXiv:2409.08320
Jesse J. Osborne and Ian P. McCulloch
Efficient and systematic calculation of arbitrary observables for the matrix product state excitation ansatz
Phys. Rev. Research 7, 023018 (2025), arXiv:2408.17117
Jesse J. Osborne, Johannes Knaute, Ian P. McCulloch, and Jad C. Halimeh
Meson Mass Sets Onset Time of Anomalous Dynamical Quantum Phase Transitions
Preprint: arXiv:2407.03394
Jesse Osborne, Ian P. McCulloch, and Jad C. Halimeh
Quantum Many-Body Scarring in 2+1D Gauge Theories with Dynamical Matter
Preprint: arXiv:2403.08858
Ian P. McCulloch and Jesse J. Osborne
Comment on “Controlled Bond Expansion for Density Matrix Renormalization Group Ground State Search at Single-Site Costs”
Preprint: arXiv:2403.00562
Guo-Xian Su*, Jesse J. Osborne*, and Jad C. Halimeh
Cold-Atom Particle Collider
PRX Quantum 5, 040310 (2024), arXiv:2401.05489
Jesse Osborne, Ian P. McCulloch, and Jad C. Halimeh
Probing Confinement Through Dynamical Quantum Phase Transitions: From Quantum Spin Models to Lattice Gauge Theories
Preprint: arXiv:2310.12210
Jesse Osborne, Bing Yang, Ian P. McCulloch, Philipp Hauke, and Jad C. Halimeh
Spin-S U(1) Quantum Link Models with Dynamical Matter on a Quantum Simulator
Preprint: arXiv:2305.06368
Jesse Osborne, Ian P. McCulloch, and Jad C. Halimeh
Disorder-Free Localization in 2+1D U(1) Lattice Gauge Theories with Dynamical Matter
Preprint: arXiv:2301.07720
Jesse Osborne, Ian P. McCulloch, Bing Yang, Philipp Hauke, and Jad C. Halimeh
Large-Scale 2+1D U(1) Gauge Theory with Dynamical Matter in a Cold-Atom Quantum Simulator
Preprint: arXiv:2211.01380
© 2025 Jesse Osborne. This work is licensed under CC BY 4.0.