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arxiv: 1911.06929 · v1 · pith:4O34NO5Jnew · submitted 2019-11-16 · ⚛️ physics.optics · physics.atom-ph

High-numerical-aperture and long-working-distance objectives for single-atom experiments

classification ⚛️ physics.optics physics.atom-ph
keywords objectiveslenseswavelengthcommercialdesigndiffractionexperimentslong-working-distance
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We present two long-working-distance objective lenses with numerical apertures (NA) of 0.29 and 0.4 for single-atom experiments. The objective lenses are assembled entirely by the commercial on-catalog $\Phi$1'' singlets. Both the objectives are capable to correct the spherical aberrations due to the standard flat vacuum glass windows with various thickness. The working distances of NA$=0.29$ and NA$=0.4$ objectives are 34.6 mm and 18.2 mm, respectively, at the design wavelength of 852 nm with 5-mm thick silica window. In addition, the objectives can also be optimized to work at diffraction limit at single wavelength in the entire visible and near infrared regions by slightly tuning the distance between the first two lenses. The diffraction limited fields of view for NA$=0.29$ and NA$=0.4$ objectives are 0.62 mm and 0.61 mm, and the spatial resolutions are 1.8 $\mu$m and 1.3 $\mu$m at the design wavelength. The performances are simulated by the commercial ray-tracing software and confirmed by imaging the resolution chart and a 1.18 $\mu$m pinhole. The two objectives can be used for trapping and manipulating single atoms of various species.

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