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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.
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
Preprint: arXiv:2409.08320
Jesse J. Osborne and Ian P. McCulloch
Efficient and systematic calculation of arbitrary observables for the matrix product state excitation ansatz
Preprint: arXiv:2408.17117
Accepted in Phys. Rev. Research
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.