Title: Cost scaling for matrix-product and tree-tensor-network simulations of 2D and 3D systems with area-law entanglement Speaker:  Thomas Barthel (University of Maryland/Duke University) Date & Time:  December 3, 2025, 11:00am Where to Attend:  ATL 3100A and Virtual Via Zoom: https://umd.zoom.us/j/9893676372?pwd=VVNOd2xNZ3FCblk4aFdTMjkzTllvQT09&omn=91238398672 Meeting ID: 989 367 6372 Passcode: abc123
Tensor network states are an indispensible tool for the simulation of strongly correlated quantum many-body systems. In recent years, tree tensor network states (TTNS) have been successfully used for the investigation of two-dimensional systems, also to benchmark quantum simulation for condensed matter, nuclear, and particle physics. In comparison to the more traditional approach based on matrix product states (MPS), the graph distance of physical degrees of freedom can be drastically reduced in TTNS. Suprisingly, it turns out that, asymptotically, MPS simulations of low-energy states should nevertheless be more efficient than TTNS simulations in both two-dimensional and three-dimensional systems. I will discuss the scaling of computation costs for different boundary conditions under the assumption that the system obeys an entanglement area law in the sense that bond dimensions scale exponentially in the surface area of the associated subsystem.
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