Entanglement of light-shift compensated atomic spin waves with telecom light
YO Dudin, AG Radnaev, R Zhao, JZ Blumoff… - Physical review …, 2010 - APS
YO Dudin, AG Radnaev, R Zhao, JZ Blumoff, TAB Kennedy, A Kuzmich
Physical review letters, 2010•APSEntanglement of a 795 nm light polarization qubit and an atomic Rb spin-wave qubit for a
storage time of 0.1 s is observed by measuring the violation of Bell's inequality (S=
2.65±0.12). Long qubit storage times are achieved by pinning the spin wave in a 1064 nm
wavelength optical lattice, with a magic-valued magnetic field superposed to eliminate lattice-
induced dephasing. Four-wave mixing in a cold Rb gas is employed to perform light qubit
conversion between near infrared (795 nm) and telecom (1367 nm) wavelengths, and after …
storage time of 0.1 s is observed by measuring the violation of Bell's inequality (S=
2.65±0.12). Long qubit storage times are achieved by pinning the spin wave in a 1064 nm
wavelength optical lattice, with a magic-valued magnetic field superposed to eliminate lattice-
induced dephasing. Four-wave mixing in a cold Rb gas is employed to perform light qubit
conversion between near infrared (795 nm) and telecom (1367 nm) wavelengths, and after …
Entanglement of a 795 nm light polarization qubit and an atomic Rb spin-wave qubit for a storage time of 0.1 s is observed by measuring the violation of Bell’s inequality (). Long qubit storage times are achieved by pinning the spin wave in a 1064 nm wavelength optical lattice, with a magic-valued magnetic field superposed to eliminate lattice-induced dephasing. Four-wave mixing in a cold Rb gas is employed to perform light qubit conversion between near infrared (795 nm) and telecom (1367 nm) wavelengths, and after propagation in a telecom fiber, to invert the conversion process. Observed Bell inequality violation (), at 10 ms storage, confirms preservation of memory-light entanglement through the two stages of light qubit frequency conversion.
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