(B1c) and the two constraints ξ =−2gκpxy + 2gκpyx, (B2a) pyz =pzy, (B2b) where we have dropped the time argument from all vari- ables for simplicity

Derivation via diﬀerential equations Let us begin with the time-continuous version of the equations describing the dynamics of the most-likely path, which are the six ODEs ˙x =−y˜ϵ

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Quantum state-preparation control in noisy environment via most-likely paths

quant-ph · 2022-09-27 · unverdicted · novelty 6.0

A most-likely noise path control strategy for qubit state preparation under dephasing achieves higher success rates than mean-path methods while the latter maximize average fidelity.

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Quantum state-preparation control in noisy environment via most-likely paths quant-ph · 2022-09-27 · unverdicted · none · ref 1
A most-likely noise path control strategy for qubit state preparation under dephasing achieves higher success rates than mean-path methods while the latter maximize average fidelity.

(B1c) and the two constraints ξ =−2gκpxy + 2gκpyx, (B2a) pyz =pzy, (B2b) where we have dropped the time argument from all vari- ables for simplicity

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