Joseph Tindall
Joseph Tindall
Researcher, Centre for Computational Quantum Physics, Flatiron Institute, New York
Verified email at - Homepage
Cited by
Cited by
Non-stationary Complex coherent quantum many-body dynamics through dissipation
B Buca, J Tindall, D Jaksch
Nature Communications 10 (1730), 2019
Photomolecular high-temperature superconductivity
M Buzzi, D Nicoletti, M Fechner, N Tancogne-Dejean, MA Sentef, ...
Physical Review X 10 (3), 031028, 2020
Heating-Induced Long-Range η Pairing in the Hubbard Model
J Tindall, B Buca, D Coulthard, Jonathan, Jaksch
Physical Review Letters 123 (030603), 2019
Efficient tensor network simulation of IBM's kicked Ising experiment
J Tindall, M Fishman, M Stoudenmire, D Sels
PRX Quantum 5 (01038), 2024
Quantum synchronisation enabled by dynamical symmetries and dissipation
J Tindall, CS Muñoz, B Buča, D Jaksch
New Journal of Physics 22 (1), 013026, 2020
Symmetries and conservation laws in quantum trajectories: Dissipative freezing
C Sánchez Muñoz, B Buča, J Tindall, A González-Tudela, D Jaksch, ...
Physical Review A 100 (4), 042113, 2019
Dynamical order and superconductivity in a frustrated many-body system
J Tindall, F Schlawin, M Buzzi, D Nicoletti, JR Coulthard, H Gao, ...
Physical Review Letters 125 (137001), 2020
Stationary state degeneracy of open quantum systems with non-abelian symmetries
Z Zhang, J Tindall, J Mur-Petit, D Jaksch, B Buča
Journal of Physics A: Mathematical and Theoretical 53 (21), 215304, 2020
Equilibration and freeze-out of an expanding gas in a transport approach in a Friedmann–Robertson–Walker metric
J Tindall, JM Torres-Rincon, JB Rose, H Petersen
Physics Letters B 770, 532-538, 2017
Analytical solution for the steady states of the driven Hubbard model
J Tindall, F Schlawin, MA Sentef, D Jaksch
Physical Review B 103 (3), 035146, 2021
Gauging tensor networks with belief propagation
J Tindall, M Fishman
SciPost Physics 15 (6), 222, 2023
Lieb's Theorem and Maximum Entropy Condensates
J Tindall, F Schlawin, M Sentef, D Jaksch
Quantum 5, 610, 2021
Quantum physics in connected worlds
J Tindall, A Searle, A Alhajri, D Jaksch
Nature Communications 13 (1), 7445, 2022
On the generality of symmetry breaking and dissipative freezing in quantum trajectories
J Tindall, D Jaksch, C Sánchez Muñoz
SciPost Physics Core 6 (1), 004, 2023
Thermodynamic limit of spin systems on random graphs
A Searle, J Tindall
Physical Review Research 6 (1), 013011, 2024
Mott transition and volume law entanglement with neural quantum states
C Gauvin-Ndiaye, J Tindall, JR Moreno, A Georges
arXiv preprint arXiv:2311.05749, 2023
Realising complex quantum states of matter via symmetries and heating
J Tindall
University of Oxford, 2021
Towards learning the disordered Hamiltonian with graph neural networks from experimental snapshots
A Dawid, J Tindall, A Sengupta, A Georges
Bulletin of the American Physical Society, 2024
Confinement in the Transverse Field Ising model on the Heavy Hex lattice
J Tindall, D Sels
arXiv preprint arXiv:2402.01558, 2024
Quantum Physics in Highly Connected Worlds
J Tindall, D Jaksch, A Searle, A Alhajri
APS March Meeting Abstracts 2023, M61. 002, 2023
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