Controlled Stark shifts in Er3+-doped crystalline and amorphous waveguides for quantum state storage

Abstract

We present measurements of the linear Stark effect on the 4I15/2 4I13/2 transition in an Er3+-doped proton-exchanged LiNbO3 crystalline waveguide and an Er3+-doped silicate fiber. The measurements were made using spectral hole burning techniques at temperatures below 4 K. We measured an effective Stark coefficient (μe)/(h)=251kHz/Vcm-1 in the crystalline waveguide and (μe)/(h)=151kHz/Vcm-1 in the silicate fiber. These results confirm the potential of Erbium doped waveguides for quantum state storage based on controlled reversible inhomogeneous broadening.

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