Robust quantum gates for open systems via optimal control: Markovian versus non-Markovian dynamics
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Publication:5137672
DOI10.1088/1367-2630/14/7/073023zbMath1448.81209arXiv1107.4358OpenAlexW2097293843MaRDI QIDQ5137672
Pierre de Fouquieres, Frederik F. Floether, Sophie Schirmer
Publication date: 2 December 2020
Published in: New Journal of Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1107.4358
Open systems, reduced dynamics, master equations, decoherence (81S22) Quantum control (81Q93) Quantum gates (81P65)
Related Items (9)
Various methods of optimizing control pulses for quantum systems with decoherence ⋮ Efficient realization of unitary transformation at the quantum speed limit ⋮ GRAPE optimization for open quantum systems with time-dependent decoherence rates driven by coherent and incoherent controls ⋮ The roles of drift and control field constraints upon quantum control speed limits ⋮ The reachable set of single-mode quadratic Hamiltonians ⋮ Optimal control theory for a unitary operation under dissipative evolution ⋮ Control of open quantum systems: case study of the central spin model ⋮ Approximation of quantum control correction scheme using deep neural networks ⋮ Geometrical versus time-series representation of data in quantum control learning
Cites Work
- On the generators of quantum dynamical semigroups
- Control systems on Lie groups
- Quantum computers and dissipation
- Efficient algorithms for optimal control of quantum dynamics: the Krotov method unencumbered
- Fidelity of optimally controlled quantum gates with randomly coupled multiparticle environments
- Non-Markovian master equations from entanglement with stationary unobserved degrees of freedom
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