Researcher
Jutho Haegeman
- Keywords:quantum many body phyics, topological order, quantum spin systems, tensor networks
- Disciplines:Statistical mechanics, Statistical mechanics, structure of matter, Statistical physics, Algebraic structures in mathematical physics, Field theory and string theory, Quantum information, computation and communication, High performance computing, Numerical computation, Magnetism and superconductivity, Electronic (transport) properties, Computational physics, Complex systems
Affiliations
- Department of Physics and astronomy (Department)
Member
From1 Jan 2010 → Today - Department of Mathematical physics and astronomy (Department)
Member
From1 Oct 2007 → 31 Dec 2009
Projects
1 - 10 of 14
- Probing Gauge Symmetries and Gauge-Matter Interactions using Tensor NetworksFrom1 Sep 2024 → TodayFunding: Horizon Europe - European Research Council (ERC)
- Bridging the gap between density functional theory and quantum tensor networks to accurately model strongly correlated nanostructured materialsFrom1 Jan 2023 → TodayFunding: BOF - projects
- An entanglement perspective on generalized symmetries, dualities and anomaliesFrom1 Nov 2022 → TodayFunding: FWO fellowships
- Improving our understanding of strongly correlated electron systems: from numerical simulations to measurements in the lab and backFrom1 Nov 2020 → 31 Aug 2023Funding: FWO senior postdoctoral fellowship
- Tensor network renormalization group methods in higher dimensionsFrom1 Oct 2020 → 31 May 2021Funding: FWO junior postdoctoral fellowship
- A high-performance tensor network library for classical and quantum many body physicsFrom1 Jan 2020 → 31 Dec 2023Funding: FWO research project (including WEAVE projects)
- A tensor network perspective on the relation between topological and conformal field theoryFrom1 Nov 2019 → 31 Oct 2023Funding: FWO fellowships
- Forging connections between machine learning techniques and strongly correlated physical systemsFrom1 Oct 2018 → 15 Sep 2022Funding: FWO fellowships
- Entanglement and tensor network states for quantum field theories.From1 Oct 2017 → 30 Sep 2021Funding: FWO fellowships
- ZAP office as part of ERC project ERQUAFFrom1 Feb 2017 → TodayFunding: BOF - ZAP BOF mandates
Publications
1 - 10 of 77
- One-dimensional symmetric phases protected by frieze symmetries(2023)
Authors: Bram Vancraeynest-De Cuiper, Jacob Bridgeman, Nicolas Dewolf, Jutho Haegeman, Frank Verstraete
- Kac-Moody symmetries in one-dimensional bosonic systems(2023)
Authors: Wei Tang, Jutho Haegeman
- Tensor networks can resolve fermi surfaces(2022)
Authors: Quinten Mortier, Norbert Schuch, Frank Verstraete, Jutho Haegeman
- The chiral Gross-Neveu model on the lattice via a Landau-forbidden phase transition(2022)
Authors: Gertian Roose, Jutho Haegeman, Karel Van Acoleyen, Laurens Vanderstraeten, Nick Bultinck
- Variational methods for contracting projected entangled-pair states(2022)
Authors: Laurens Vanderstraeten, Lander Burgelman, Boris Ponsioen, Maarten Van Damme, Bram Vanhecke, Philippe Corboz, Jutho Haegeman, Frank Verstraete
- Critical lattice model for a Haagerup conformal field theory(2022)
Authors: Robijn Vanhove, Laurens Lootens, Maarten Van Damme, Ramona Wolf, Tobias J. Osborne, Jutho Haegeman, Frank Verstraete
- Direct sampling of projected entangled-pair states(2021)
Authors: Tom Vieijra, Jutho Haegeman, Frank Verstraete, Laurens Vanderstraeten
- Matrix product operator symmetries and intertwiners in string-nets with domain walls(2021)
Authors: Laurens Lootens, Jürgen Fuchs, Jutho Haegeman, Christoph Schweigert, Frank Verstraete
- Efficient matrix product state methods for extracting spectral information on rings and cylinders(2021)
Authors: Maarten Van Damme, Robijn Vanhove, Jutho Haegeman, Frank Verstraete, Laurens Vanderstraeten
- Lattice regularisation and entanglement structure of the Gross-Neveu model(2021)
Authors: Gertian Roose, Nick Bultinck, Laurens Vanderstraeten, Frank Verstraete, Karel Van Acoleyen, Jutho Haegeman