Granularity noise thermometry extracts temperature from the linear scaling of excess transmitted-light noise with photon-to-atom ratio using closed-form polarizability moments from the plasma dispersion function.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Light-induced losses dominate DyK Feshbach molecule decay in most near-IR traps, but near 2000 nm collisional losses appear and are suppressed by an order of magnitude for the most weakly bound dimers due to Pauli exclusion.
citing papers explorer
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Photon-Atom Granularity Noise Thermometry
Granularity noise thermometry extracts temperature from the linear scaling of excess transmitted-light noise with photon-to-atom ratio using closed-form polarizability moments from the plasma dispersion function.
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Optically trapped Feshbach molecules of fermionic $^{161}$Dy and $^{40}$K: Role of light-induced and collisional losses
Light-induced losses dominate DyK Feshbach molecule decay in most near-IR traps, but near 2000 nm collisional losses appear and are suppressed by an order of magnitude for the most weakly bound dimers due to Pauli exclusion.