We investigate tree tensor network states for quantum chemistry. Tree tensor network states represent one of the simplest generalizations of matrix product states and the density matrix renormalization group. While matrix product states encode a one-dimensional entanglement structure, tree tensor network states encode a tree entanglement structure, allowing for a more flexible description of general molecules. We describe an optimal tree tensor network state algorithm for quantum chemistry. We introduce the concept of half-renormalization which greatly improves the efficiency of the calculations. Using our efficient formulation we demonstrate the strengths and weaknesses of tree tensor network states versus matrix product states. We carry o...
This work explores the use of a tree tensor network ansatz to simulate the ground state of a local H...
In this proof-of-concept paper we show that tensor product approach is efficient for control of larg...
An efficient representation of a quantum circuit is of great importance in achieving a quantum advan...
We investigate tree tensor network states for quantum chemistry. Tree tensor network states represen...
We present a new variational tree tensor network state (TTNS) ansatz, the three-legged tree tensor n...
We study the tree-tensor-network-state (TTNS) method with variable tensor orders for quantum chemist...
Tensor Network States (TNS) offer an efficient representation for the ground state of quantum many b...
ABSTRACT: We study the tree-tensor-network-state (TTNS) method with variable tensor orders for quant...
Tree tensor network (TTN) provides an essential theoretical framework for the practical simulation o...
We present a tree-tensor-network-based method to study strongly correlated systems with nonlocal int...
We present a class of tensor network states specifically designed to capture the electron correlatio...
We present how to compute vibrational eigenstates with tree tensor network states (TTNSs), the under...
We review different descriptions of many-body quantum systems in terms of tensor product states. We ...
We extend the three-legged tree tensor network state (T3NS) [J. Chem. Theory Comput. 2018, 14, 2026-...
A tree tensor network variational method is proposed to simulate quantum many-body systems with glob...
This work explores the use of a tree tensor network ansatz to simulate the ground state of a local H...
In this proof-of-concept paper we show that tensor product approach is efficient for control of larg...
An efficient representation of a quantum circuit is of great importance in achieving a quantum advan...
We investigate tree tensor network states for quantum chemistry. Tree tensor network states represen...
We present a new variational tree tensor network state (TTNS) ansatz, the three-legged tree tensor n...
We study the tree-tensor-network-state (TTNS) method with variable tensor orders for quantum chemist...
Tensor Network States (TNS) offer an efficient representation for the ground state of quantum many b...
ABSTRACT: We study the tree-tensor-network-state (TTNS) method with variable tensor orders for quant...
Tree tensor network (TTN) provides an essential theoretical framework for the practical simulation o...
We present a tree-tensor-network-based method to study strongly correlated systems with nonlocal int...
We present a class of tensor network states specifically designed to capture the electron correlatio...
We present how to compute vibrational eigenstates with tree tensor network states (TTNSs), the under...
We review different descriptions of many-body quantum systems in terms of tensor product states. We ...
We extend the three-legged tree tensor network state (T3NS) [J. Chem. Theory Comput. 2018, 14, 2026-...
A tree tensor network variational method is proposed to simulate quantum many-body systems with glob...
This work explores the use of a tree tensor network ansatz to simulate the ground state of a local H...
In this proof-of-concept paper we show that tensor product approach is efficient for control of larg...
An efficient representation of a quantum circuit is of great importance in achieving a quantum advan...