The solution of an auxiliary quantum impurity system is the computationally expensive step in dynamical mean field theory simulations of lattice models and materials. In this review, we discuss Monte Carlo based impurity solvers, which are suitable for a wide range of applications. In particular, we present an efficient implementation of the hybridization expansion approach, which enables the simulation of multiorbital impurity problems with off-diagonal and complex hybridizations, and dynamically screened (retarded) density-density interactions. As a complementary approach, we discuss an impurity solver based on the determinant Monte Carlo method, which scales favorably with inverse temperature and hence provides access to the very...
Strong correlations caused by interaction in systems of electrons can bring about unusual physical p...
Quantum impurity solvers have a broad range of applications in theoretical studies of strongly corre...
In the pursuit of accurate descriptions of strongly correlated quantum many-body systems, dynamical ...
The solution of an auxiliary quantum impurity system is the computationally expensive step in dynami...
We explore two complementary modifications of the hybridization-expansion continuous-time Monte Carl...
We present a continuous-time Monte Carlo impurity solver for multiorbital impurity models which comb...
The dynamical mean field theory (DMFT) has emerged as one of the most importantframeworks for theore...
The development of polynomial cost solvers for correlated quantum impurity models, with controllable...
We present an impurity solver based on adaptively truncated Hilbert spaces. The solver is particular...
We describe an open-source implementation of the continuous-time hybridization- expansion quantum Mo...
We describe the use of coupled-cluster theory as an impurity solver in dynamical mean-field theory (...
We present a new impurity solver for dynamical mean-field theory based on imaginary-time evolution o...
AbstractWe present a brief overview of two continuous–time quantum Monte Carlo impurity solvers–a di...
We present a quantum impurity solver based on a pseudo-particle framework, which combines diagrammat...
This work is motivated by the fact that the investigation of non-equilibrium phenomena in strongly c...
Strong correlations caused by interaction in systems of electrons can bring about unusual physical p...
Quantum impurity solvers have a broad range of applications in theoretical studies of strongly corre...
In the pursuit of accurate descriptions of strongly correlated quantum many-body systems, dynamical ...
The solution of an auxiliary quantum impurity system is the computationally expensive step in dynami...
We explore two complementary modifications of the hybridization-expansion continuous-time Monte Carl...
We present a continuous-time Monte Carlo impurity solver for multiorbital impurity models which comb...
The dynamical mean field theory (DMFT) has emerged as one of the most importantframeworks for theore...
The development of polynomial cost solvers for correlated quantum impurity models, with controllable...
We present an impurity solver based on adaptively truncated Hilbert spaces. The solver is particular...
We describe an open-source implementation of the continuous-time hybridization- expansion quantum Mo...
We describe the use of coupled-cluster theory as an impurity solver in dynamical mean-field theory (...
We present a new impurity solver for dynamical mean-field theory based on imaginary-time evolution o...
AbstractWe present a brief overview of two continuous–time quantum Monte Carlo impurity solvers–a di...
We present a quantum impurity solver based on a pseudo-particle framework, which combines diagrammat...
This work is motivated by the fact that the investigation of non-equilibrium phenomena in strongly c...
Strong correlations caused by interaction in systems of electrons can bring about unusual physical p...
Quantum impurity solvers have a broad range of applications in theoretical studies of strongly corre...
In the pursuit of accurate descriptions of strongly correlated quantum many-body systems, dynamical ...