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Observation of the <sup>87</sup>Rb 5S<sub>1/2</sub> to 4D<sub>3/2</sub> electric quadrupole transition at 516.6 nm mediated via an optical nanofibre

Tridib Ray, Ratnesh K Gupta, Vandna Gokhroo, Jesse L Everett, Thomas Nieddu, Krishnapriya S Rajasree, Síle Nic Chormaic

2020New Journal of Physics41 citationsDOIOpen Access PDF

Abstract

Abstract Light guided by an optical nanofibre has a very steep evanescent field gradient extending from the fibre surface. This gradient can be exploited to drive electric quadrupole transitions in nearby quantum emitters. In this paper, we report on the observation of the 5S 1/2 → 4D 3/2 electric quadrupole transition at 516.6 nm (in vacuum) in laser-cooled 87 Rb atoms using only a few μ W of laser power propagating through an optical nanofibre embedded in the atom cloud. This work extends the range of applications for optical nanofibres in atomic physics to include more fundamental tests such as high-precision measurements of parity non-conservation.

Topics & Concepts

PhysicsQuadrupoleElectric fieldElectric field gradientAtom (system on chip)Atom opticsLaserAtomic physicsQuantumParity (physics)OptoelectronicsWork (physics)Optical powerRange (aeronautics)Field (mathematics)Molecular physicsOpticsCondensed matter physicsQuantum opticsOptical fiberLaser beamsQuantum dotEvanescent wavePower (physics)Cold Atom Physics and Bose-Einstein CondensatesAdvanced Frequency and Time StandardsAtomic and Subatomic Physics Research
Observation of the <sup>87</sup>Rb 5S<sub>1/2</sub> to 4D<sub>3/2</sub> electric quadrupole transition at 516.6 nm mediated via an optical nanofibre | Litcius