A Floquet theory framework unifies elastic scattering across regimes in optical lattices and reveals practical operating points with substantially reduced losses for large-momentum-transfer beam splitters.
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The work shows that moderate violation of the short-pulse limit in δ-kicked rotor atom interferometers improves sensitivity, with simple analytical relations predicting optimal pulse duration.
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Fundamental Limits of Large Momentum Transfer in Optical Lattices
A Floquet theory framework unifies elastic scattering across regimes in optical lattices and reveals practical operating points with substantially reduced losses for large-momentum-transfer beam splitters.
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Atom interferometry using $\delta$-kicked and finite duration pulse-sequences
The work shows that moderate violation of the short-pulse limit in δ-kicked rotor atom interferometers improves sensitivity, with simple analytical relations predicting optimal pulse duration.