Preprints
Algorithmic aspects of gauged Gaussian fermionic projected entangled pair states
I. Gomelski, J. Elyovich, A. Kelman, E. Zohar, P. Emonts
arXiv:2512.00146
Tailoring Bell inequalities to the qudit toric code and self testing
E. Vallée, O. Makuta, P. Emonts, R. Samajdar, and J. Tura
arXiv:2507.07668
Learning Pole Structures of Hadronic States using Predictive Uncertainty Estimation
F. Frohnert, D. L. B. Sombillo, E. van Nieuwenburg, P. Emonts
arXiv:2512.13812
Multiple-Basis Representation of Quantum States
A. Pérez-Salinas, P. Emonts, J. Tura, and V. Dunjko
arXiv:2411.03110.
Boosting Thermalization of Classical and Quantum Many-Body Systems
J.-F. Chen, K. S. Rai, P. Emonts, D. Farina, M. Płodzień, P. Grzybowski, M. Lewenstein, and J. Tura
arXiv:2411.03420.
A Hierarchy of Spectral Gap Certificates for Frustration-Free Spin Systems
K. S. Rai, I. Kull, P. Emonts, J. Tura, N. Schuch, and F. Baccari
arXiv:2411.03680.
Improved Nonlocality Certification via Bouncing between Bell Operators and Inequalities
W. Li et al
arXiv:2407.12347.
Characterizing Translation-Invariant Bell Inequalities Using Tropical Algebra and Graph Polytopes
M. Hu, E. Vallée, T. Seynnaeve, P. Emonts, and J. Tura
arXiv:2407.08783.
Research articles
Projected entangled pair states for lattice gauge theories with dynamical fermions
A. Kelman, U. Borla, P. Emonts, E. Zohar
Comm. Physics (2026)
Spectral Gap Optimization for Enhanced Adiabatic State Preparation
K.S. Rai, J.-F. Chen, P. Emonts, J. Tura
Phys. Rev. Lett. 135, 090602 (2025)
Optimising entanglement distribution policies under classical communication constraints assisted by reinforcement learning
J. Li, T. Coopmans, P. Emonts, K. Goodenough, J. Tura, E. van Nieuwenburg
Machine Learning: Science and Technology, Volume 6, Number 3 (2025)
Probing Many-Body Bell Correlation Depth with Superconducting Qubits
K. Wang et al.
Phys. Rev. X 15, 021024 (2025)
Effects of Topological Boundary Conditions on Bell Nonlocality
P. Emonts, M. Hu, A. Aloy, J. Tura
Phys. Rev. A 110, 032201 (2025)
Luttinger liquid tensor network: sine versus tangent dispersion of massless Dirac fermions
V. A. Zakharov, S. Polla, A. Donís Vela, P. Emonts, M. J. Pacholski, J. Tworzydło, C. W. J. Beenakker
Phys. Rev. Research 6, 043059 (2025)
Gauged Gaussian projected entangled pair states: A high dimensional tensor network formulation for lattice gauge theories
A. Kelman, U. Borla, I. Gomelski, J. Elyovich, G. Roose, P. Emonts, E. Zohar
Phys. Rev. D 110, 054511 (2024)
A Christmas Story about Quantum Teleportation
B. W. Fitzgerald, P. Emonts, J. Tura
A variational Monte Carlo algorithm for lattice gauge theories with continuous gauge groups: a study of (2+1)-dimensional compact QED with dynamical fermions at finite density
J. Bender, P. Emonts, J. I. Cirac
Fermionic Gaussian projected entangled pair states in 3 + 1 D : Rotations and relativistic limits
P. Emonts, E. Zohar
Phys. Rev. D 108, 014514 (2023)
Finding the ground state of a lattice gauge theory with fermionic tensor networks: a 2 + 1d Z2 demonstration
P. Emonts, A. Kelman, U. Borla, S. Moroz, S. Gazit, and E. Zohar,
Phys. Rev. D 107, 014505 (2023)
Reduced density matrix and entanglement in interacting quantum field theory with Hamiltonian truncation
P. Emonts, I. Kukuljan
Phys. Rev. Research 4, 033039 (2022)
Gaussian Continuous Tensor Network States for Simple Bosonic Field Theories
T. D. Karanikolaou, P. Emonts, A. Tilloy
Phys. Rev. Research 3, 023059 (2021)
Real-time dynamics in 2+1d compact QED using complex periodic Gaussian states
J. Bender, P. Emonts, E. Zohar, J. I. Cirac
Phys. Rev. Research 2, 043145 (2020)
Variational Monte Carlo simulation with tensor networks of a pure Z3 gauge theory in (2 + 1) D
P. Emonts, M. C. Bañuls, J. I. Cirac, E. Zohar
Phys. Rev. D 102, 074501 (2020)
Gauss Law, Minimal Coupling and Fermionic PEPS for Lattice Gauge Theories
P. Emonts, E. Zohar
SciPost Phys. Lect. Notes 12 (2020)