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Efficient classical simulation of slightly entangled quantum computations

9 Pith papers cite this work. Polarity classification is still indexing.

9 Pith papers citing it
abstract

We present a scheme to efficiently simulate, with a classical computer, the dynamics of multipartite quantum systems on which the amount of entanglement (or of correlations in the case of mixed-state dynamics) is conveniently restricted. The evolution of a pure state of n qubits can be simulated by using computational resources that grow linearly in n and exponentially in the entanglement. We show that a pure-state quantum computation can only yield an exponential speed-up with respect to classical computations if the entanglement increases with the size n of the computation, and gives a lower bound on the required growth.

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representative citing papers

Mapping twist fields to local operators via tensor networks

quant-ph · 2026-05-25 · unverdicted · novelty 7.0

Constructs explicit physical local operators whose expectation values match twist field actions in MPS, exact in the injectivity limit and at the center of orthogonality, with numerical tests in the transverse-field Ising model.

Bowtie VarQTE: A Resource-Efficient Quantum State Preparation Primitive

quant-ph · 2026-05-19 · unverdicted · novelty 6.0

Bowtie VarQTE is a hybrid classical-quantum variational time evolution method that exploits causal light-cones to reduce quantum resource use for state preparation while achieving fidelities comparable to approximate quantum compilation.

Universal Non-stabilizerness Dynamics Across Quantum Phase Transitions

quant-ph · 2026-03-09 · unverdicted · novelty 6.0

Stabilizer Rényi entropies and Pauli spectrum cumulants show universal power-law scaling with driving rate in slow processes across quantum phase transitions, with the logarithmic Pauli spectrum asymptotically Gaussian, demonstrated in the transverse-field Ising model and long-range Kitaev models.

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Showing 5 of 5 citing papers after filters.

  • An Exponential Sample-Complexity Advantage for Coherent Quantum Inference quant-ph · 2026-05-20 · unverdicted · none · ref 3 · internal anchor

    Coherent quantum inference achieves O(1/ε) sample complexity for d-dimensional quantum purity amplification, exponentially better than the Ω(d/ε) required by any incoherent measurement-mediated protocol.

  • Mapping twist fields to local operators via tensor networks quant-ph · 2026-05-25 · unverdicted · none · ref 18 · internal anchor

    Constructs explicit physical local operators whose expectation values match twist field actions in MPS, exact in the injectivity limit and at the center of orthogonality, with numerical tests in the transverse-field Ising model.

  • Photonic Analog Quantum Simulation of (1+1)-Dimensional $U(1)$ Lattice Gauge Theory with Dynamical Matter hep-lat · 2026-06-01 · unverdicted · none · ref 4 · internal anchor

    A mapping of the Jaynes-Cummings-Hubbard model onto the spin-1/2 Quantum Link Model via tuned polaritonic resonances in cavity arrays enables analog simulation of U(1) LGT dynamics with matter, verified by exact diagonalization.

  • Bowtie VarQTE: A Resource-Efficient Quantum State Preparation Primitive quant-ph · 2026-05-19 · unverdicted · none · ref 46 · internal anchor

    Bowtie VarQTE is a hybrid classical-quantum variational time evolution method that exploits causal light-cones to reduce quantum resource use for state preparation while achieving fidelities comparable to approximate quantum compilation.

  • Universal Non-stabilizerness Dynamics Across Quantum Phase Transitions quant-ph · 2026-03-09 · unverdicted · none · ref 3 · internal anchor

    Stabilizer Rényi entropies and Pauli spectrum cumulants show universal power-law scaling with driving rate in slow processes across quantum phase transitions, with the logarithmic Pauli spectrum asymptotically Gaussian, demonstrated in the transverse-field Ising model and long-range Kitaev models.