Direct spectroscopic measurement of Casimir-Polder force-induced kHz shifts on strontium atoms in the intermediate regime agrees with QED but differs from short- and long-range approximations.
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First experimental measurement of the D1 magic wavelength in 40K at 1227.54(3) nm via tunable optical tweezer loss spectroscopy.
Bichromatic tweezers with selected wavelengths and intensity ratio suppress differential AC Stark shifts in ⁸⁷Sr ³P₂, creating scalar and tensor magic conditions for qudit encoding.
citing papers explorer
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Spectroscopic measurement of the Casimir-Polder force in the intermediate regime
Direct spectroscopic measurement of Casimir-Polder force-induced kHz shifts on strontium atoms in the intermediate regime agrees with QED but differs from short- and long-range approximations.
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Experimental Determination of the $D1$ Magic Wavelength for $^{40}$K
First experimental measurement of the D1 magic wavelength in 40K at 1227.54(3) nm via tunable optical tweezer loss spectroscopy.
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Bichromatic Tweezers for Qudit Quantum Computing in ${}^{87}$Sr
Bichromatic tweezers with selected wavelengths and intensity ratio suppress differential AC Stark shifts in ⁸⁷Sr ³P₂, creating scalar and tensor magic conditions for qudit encoding.