Modular variables retain phase sensitivity in non-overlapping wave-packet superpositions under gravity and Caldeira-Leggett decoherence when evaluated locally via Bohmian trajectories, unlike probability density or current.
Energy-speed relationship of quantum particles challenges Bohmian mechanics
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Bohmian trajectories computed for coupled waveguides reproduce standard quantum predictions and refute a recent experimental claim of falsification.
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Modular Variables and the Limits of Phase Detectability in Open Quantum Systems
Modular variables retain phase sensitivity in non-overlapping wave-packet superpositions under gravity and Caldeira-Leggett decoherence when evaluated locally via Bohmian trajectories, unlike probability density or current.
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Trajectories in coupled waveguides: an application to a recent experiment and Hiley's lessons on the falsification of the Bohmian model
Bohmian trajectories computed for coupled waveguides reproduce standard quantum predictions and refute a recent experimental claim of falsification.