We present our recent results for the tensor network (TN) approach to lattice gauge theories. TN methods provide an efficient approximation for quantum many-body states. We employ TN for one dimensional systems, Matrix Product States, to investigate the 1-flavour Schwinger model. In this study, we compute the chiral condensate at finite temperature. From the continuum extrapolation, we obtain the chiral condensate in the high temperature region consistent with the analytical calculation by Sachs and Wipf
Over the last decade tensor network states (TNS) have emerged as a powerful tool for the study of qu...
We present a technique to compute the microcanonical thermodynamical properties of a many-body quant...
We numerically study the zero temperature phase structure of the multi-flavor Schwinger model at non...
We present our recent results for the tensor network (TN) approach to lattice gauge theories. TN met...
Tensor network (TN) methods, in particular the matrix product states (MPS) ansatz, have proven to be...
Tensor network (TN) methods, in particular the Matrix Product States (MPS) ansatz, have proven to be...
We demonstrate the suitability of tensor network techniques for describing the thermal evolution of ...
The Schwinger model, or 1+1 dimensional QED, offers an interesting object of study, both at zero and...
We demonstrate the suitability of tensor network techniques for describing the thermal evolution of ...
During recent years there has been an increasing interest in the application of matrix product state...
The study of lattice gauge theories with Monte Carlo simulations is hindered by the infamous sign pr...
I attempt to develop a simple tensor network formulation of the Schwinger model with periodic bounda...
Using Matrix Product Operators (MPO) the Schwinger model is simulated in thermal equilibrium. The va...
Over the last decade tensor network states (TNS) have emerged as a powerful tool for the study of qu...
We numerically study the single-flavour Schwinger model in the Hamiltonian formulation with a topolo...
Over the last decade tensor network states (TNS) have emerged as a powerful tool for the study of qu...
We present a technique to compute the microcanonical thermodynamical properties of a many-body quant...
We numerically study the zero temperature phase structure of the multi-flavor Schwinger model at non...
We present our recent results for the tensor network (TN) approach to lattice gauge theories. TN met...
Tensor network (TN) methods, in particular the matrix product states (MPS) ansatz, have proven to be...
Tensor network (TN) methods, in particular the Matrix Product States (MPS) ansatz, have proven to be...
We demonstrate the suitability of tensor network techniques for describing the thermal evolution of ...
The Schwinger model, or 1+1 dimensional QED, offers an interesting object of study, both at zero and...
We demonstrate the suitability of tensor network techniques for describing the thermal evolution of ...
During recent years there has been an increasing interest in the application of matrix product state...
The study of lattice gauge theories with Monte Carlo simulations is hindered by the infamous sign pr...
I attempt to develop a simple tensor network formulation of the Schwinger model with periodic bounda...
Using Matrix Product Operators (MPO) the Schwinger model is simulated in thermal equilibrium. The va...
Over the last decade tensor network states (TNS) have emerged as a powerful tool for the study of qu...
We numerically study the single-flavour Schwinger model in the Hamiltonian formulation with a topolo...
Over the last decade tensor network states (TNS) have emerged as a powerful tool for the study of qu...
We present a technique to compute the microcanonical thermodynamical properties of a many-body quant...
We numerically study the zero temperature phase structure of the multi-flavor Schwinger model at non...