Eight years ago Lene Hau and colleagues at Harvard University demonstrated the ability to slow a light pulse in a gas of atoms to 17 m/s. Quantum interference effects among the atoms, the light pulse, and a second, coupling light beam slow and spatially compress the light pulse as it enters the atom cloud; the pulse's amplitude and phase information get coherently imprinted on the atoms. A few years later, the team showed that if the coupling beam is turned off, the light pulse is actually halted, but its imprint on the atoms remains. If the coupling beam is turned back on, the original light pulse could be reconstituted and sent on its way. Now Hau's group has added an extra layer to the story: passing the encoded light-pulse information from one atom cloud to another. She and her colleagues begin by halting and extinguishing a light pulse in a...
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1 April 2007
April 01 2007
Citation
Phillip F. Schewe; Slowed light handed off. Physics Today 1 April 2007; 60 (4): 22. https://doi.org/10.1063/1.4796394
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