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Paper detail

Arrays of individually controllable optical tweezers based on 3D-printed microlens arrays

We present a novel platform of optical tweezers which combines rapid prototyping of user-definable microlens arrays with spatial light modulation (SLM) for dynamical control of each associated tweezer spot. Applying femtosecond direct laser writing, we manufacture a microlens array of 97 lenslets exhibiting quadratic and hexagonal packing and a transition region between the two. We use a digital micromirror device (DMD) to adapt the light field illuminating the individual lenslets and present a detailed characterization of the full optical system. In an unprecedented fashion, this novel platform combines the stability given by prefabricated solid optical elements, fast reengineering by rapid optical prototyping, DMD-based real-time control of each focal spot, and extensive scalability of the tweezer pattern. The accessible tweezer properties are adaptable within a wide range of parameters in a straightforward way.

preprint2020arXivOpen access
Dominik SchäffnerTilman PreuschoffSimon RistokLukas BrozioMalte SchlosserHarald GiessenGerhard Birkl
physics.atom-phphysics.app-phphysics.opticsquant-ph
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Dominik SchäffnerTilman PreuschoffSimon RistokLukas BrozioMalte SchlosserHarald GiessenGerhard Birkl

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