# Entanglement and complexity of interacting qubits subject to asymmetric noise

@article{Kapit2019EntanglementAC, title={Entanglement and complexity of interacting qubits subject to asymmetric noise}, author={Eliot Kapit and Pedram Roushan and Charles J. Neill and Sergio Boixo and Vadim N. Smelyanskiy}, journal={arXiv: Quantum Physics}, year={2019} }

The simulation complexity of predicting the time evolution of delocalized many-body quantum systems has attracted much recent interest, and simulations of such systems in real quantum hardware are promising routes to demonstrating a quantum advantage over classical machines. In these proposals, random noise is an obstacle that must be overcome for a faithful simulation, and a single error event can be enough to drive the system to a classically trivial state. We argue that this need not always…

## One Citation

### Low-decoherence quantum information transmittal scheme based on the single-particle various degrees of freedom entangled states

- PhysicsQuantum Information Processing
- 2020

A new low-decoherence quantum information deferent scheme is proposed on the basis of the single-particle diverse degrees of freedom entangled states from dissimilar perspectives that can reduce amounts of noise interference in the information transmittal process from the origin by entanglement.

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