2017
DOI: 10.1088/1361-6455/aa5518
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Subwavelength optical dipole trap for neutral atoms using a microcapillary tube tip

Abstract: We propose a scheme for a state-insensitive optical dipole trap for single cesium atoms using a silica microcapillary tube tip. The end of microcapillary tube tip is flat. Simulations show that the trapping light beam output from microcapillary tube tip interferes and can form a subwavelength-trap with a full width at half-maximum of 0.67 μm. The trap is small enough to trap single atoms. The trap depth is more than 1 mK when the optical power of the trapping light guided by the microcapillary tube tip is only… Show more

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Cited by 11 publications
(13 citation statements)
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“…Here, α is the reduced polarizability and its expression is taken from [49]. We considered eight transition wavelengths of 87 Rb, and the calculated value is α ≈ -7.87 × 10 e−38 F • m 2 at the trapping wavelength λ = 760 nm.…”
Section: Analysis Of Atom-trapping For 87 Rbmentioning
confidence: 99%
See 1 more Smart Citation
“…Here, α is the reduced polarizability and its expression is taken from [49]. We considered eight transition wavelengths of 87 Rb, and the calculated value is α ≈ -7.87 × 10 e−38 F • m 2 at the trapping wavelength λ = 760 nm.…”
Section: Analysis Of Atom-trapping For 87 Rbmentioning
confidence: 99%
“…It can be easily seen that the trap depths are about 1.1 mK and 0.42 mK for RCP and LCP incidences, respectively, with input power P 0 = 1 mW. The full width at the halfmaxima (FWHMs) are both about 225 nm for RCP and LCP, which can be used to confine and trap a single atom [49]. Manipulation of a single atom can be used to verify basic physical laws and for accurate measurements of physical constants.…”
Section: Analysis Of Atom-trapping For 87 Rbmentioning
confidence: 99%
“…where the optical dipole potential U opt that a neutral atom with atomic state i and Zeeman level m i experiences in an electric field E is given by [5,7,36]…”
Section: Trapping Potentialsmentioning
confidence: 99%
“…The dipole trap mainly uses the gradient light intensity formed by the focused light field to produce a dipole effect on a neutral atom. In the more used red-detuned traps, the atoms are trapped in the position with the strongest light intensity under attractive potential [6,7]. However, even in the case of a far-off resonance optical dipole trap (FORT) light, the atom will be subjected to large photon's Rayleigh and Raman scattering, resulting in obvious destruction of atomic coherence and heating effect [5].…”
Section: Introductionmentioning
confidence: 99%
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