A signed two-rail population encoding followed by per-rail amplitude damping and conditional rail swaps implements classical MRT relaxation exactly with unit success probability.
Algorithmic Advances Towards a Realizable Quantum Lattice Boltzmann Method
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Encoding strategies for quantum fluid simulations trade off compactness against practicality in state preparation, measurement, boundary conditions, and nonlinear operations, with no single approach being universally optimal.
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Deterministic Realization of Classical Dissipation on Quantum Computers
A signed two-rail population encoding followed by per-rail amplitude damping and conditional rail swaps implements classical MRT relaxation exactly with unit success probability.
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Encoding strategies for quantum enhanced fluid simulations: opportunities and challenges
Encoding strategies for quantum fluid simulations trade off compactness against practicality in state preparation, measurement, boundary conditions, and nonlinear operations, with no single approach being universally optimal.