A Feynman diagram framework is introduced to analytically compute finite-size and higher-ħ quantum corrections to phase shifts in matter wave interferometers for power-law and arbitrary potentials.
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Experimental demonstration of matter-wave interference in high Rydberg state helium atoms via entanglement of internal Rydberg states with external momentum states using microwave and electric field gradient pulses.
A first-order Magnus expansion yields closed-form amplitude and phase conditions for universal single-qubit rotations on NaCs rotational qubits with simulated fidelities above 0.9999.
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Feynman Diagrams for Matter Wave Interferometry
A Feynman diagram framework is introduced to analytically compute finite-size and higher-ħ quantum corrections to phase shifts in matter wave interferometers for power-law and arbitrary potentials.
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Matter-wave interferometry with atoms in high Rydberg states
Experimental demonstration of matter-wave interference in high Rydberg state helium atoms via entanglement of internal Rydberg states with external momentum states using microwave and electric field gradient pulses.
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Analytical two-pulse control of universal single-qubit gates in rotational ultracold NaCs molecules
A first-order Magnus expansion yields closed-form amplitude and phase conditions for universal single-qubit rotations on NaCs rotational qubits with simulated fidelities above 0.9999.