• Merging the precision control of Optical Tweezers with the accuracy of Trapped Ions to advance Quantum Computing research

    Our Quantum Computing technologies

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    Trapped Ion Quantum Computing using Optical Tweezers and the Magnus Effect

    Making use of the novel optical Magnus effect to engineer a two-qubits quantum logic gate on trapped ions

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    Trapped Ion Quantum Computing Using Optical Tweezers and Electric Fields

    Combining optical tweezers and electric fields to achieve scalable high-fidelity quantum gates.

  • Explore our first Quantum Computer

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    Our new setup combines UV optical tweezers with microfabricated Ion Traps

  • Our Expertise

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    Precision manufacturing

    Electrical connections for high frequency applications

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    Ultra-high vacuum

    UHV setups for ion trapping and precision physics

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    Optical tweezers

    Design and optimization of structured light fields by means of Spatial Light Modulators

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    Microfabricated Ion Traps

    High-precision microfabrication of ion traps