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Mixed-state dynamics in one-dimensional quantum lattice systems: a time-dependent superoperator renormalization algorithm

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abstract

We present an algorithm to study mixed-state dynamics in one-dimensional quantum lattice systems. The algorithm can be used, e.g., to construct thermal states or to simulate real time evolutions given by a generic master equation. Its two main ingredients are (i) a superoperator renormalization scheme to efficiently describe the state of the system and (ii) the time evolving block decimation (TEBD) technique to efficiently update the state during a time evolution. The computational cost of a simulation increases significantly with the amount of correlations between subsystems but it otherwise depends only linearly in the system size. We present simulations involving quantum spins and fermions in one spatial dimension.

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quant-ph 1

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2026 1

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UNVERDICTED 1

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Noisy quantum circuit simulation with the tensor jump method

quant-ph · 2026-07-01 · unverdicted · novelty 5.0

A variance-aware tensor network framework using the tensor jump method, TDVP on MPS, and Pauli-Lindblad noise models enables scalable simulation of noisy quantum circuits with reduced Monte Carlo variance.

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  • Noisy quantum circuit simulation with the tensor jump method quant-ph · 2026-07-01 · unverdicted · none · ref 15 · internal anchor

    A variance-aware tensor network framework using the tensor jump method, TDVP on MPS, and Pauli-Lindblad noise models enables scalable simulation of noisy quantum circuits with reduced Monte Carlo variance.