Hot thermal states enable quantum-enhanced bosonic displacement sensing via parity projection and coherence mechanisms, making full ground-state cooling non-universal under realistic decoherence.
quantimpy: Quantitative Image Analysis for Particle-Based Systems, @doi 10.5281/zenodo.xxxxx, https://github.com/quantimpy/quantimpy
3 Pith papers cite this work. Polarity classification is still indexing.
years
2026 3verdicts
UNVERDICTED 3representative citing papers
Proposes a protocol for preparing Fock and Schrödinger cat states in levitated particles via time-dependent modulation of weakly nonharmonic potentials combined with transient wave-function delocalization.
Geometry of temperature isosurfaces controls the PDF shape in turbulent multi-phase gas, with clumps transitioning to sheets producing broader distributions.
citing papers explorer
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To Cool, or Not to Cool? Displacement Sensing with Hot Quantum States
Hot thermal states enable quantum-enhanced bosonic displacement sensing via parity projection and coherence mechanisms, making full ground-state cooling non-universal under realistic decoherence.
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Quantum Non-Gaussian State Preparation of Levitated Particles via Time-Dependent Control of Weakly Nonharmonic Hybrid Potentials
Proposes a protocol for preparing Fock and Schrödinger cat states in levitated particles via time-dependent modulation of weakly nonharmonic potentials combined with transient wave-function delocalization.
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From Clumps to Sheets: Geometry Controls the Temperature PDF of Multi-Phase Gas
Geometry of temperature isosurfaces controls the PDF shape in turbulent multi-phase gas, with clumps transitioning to sheets producing broader distributions.