A FROG technique employing parametric amplification is proposed and validated via numerical simulations to recover temporal mode shapes and squeezing levels of multimode ultrafast squeezed states.
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quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Orthogonalised SGQT adapts orthogonalisation from single-pixel imaging to improve quantum tomography fidelity from 95.2% to 99.17% numerically and 92.1% to 95.3% experimentally.
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Frequency resolved optical gating using parametric amplification for characterizing ultrafast temporally multimode squeezed states
A FROG technique employing parametric amplification is proposed and validated via numerical simulations to recover temporal mode shapes and squeezing levels of multimode ultrafast squeezed states.
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Orthogonalised Self-Guided Quantum Tomography: Insights from Single-Pixel Imaging
Orthogonalised SGQT adapts orthogonalisation from single-pixel imaging to improve quantum tomography fidelity from 95.2% to 99.17% numerically and 92.1% to 95.3% experimentally.