Image A Mechanics-based Microwave to Optical Quantum Link A coherent interface between microwave and optical photons is thought to be an essential first generation quantum technology, allowing information from a superconducting quantum computer to be communicated over a photonics-based quantum network. Developing such a technology is challenging, however, as it requires advanced techniques from at least three engineering disciplines—superconducting microwave electronics, quantum photonics, and a third discipline governing the microwave-to-optical transduction element. Read more
Image A Mechanics-based Microwave to Optical Quantum Link A coherent interface between microwave and optical photons is thought to be an essential first generation quantum technology, allowing information from a superconducting quantum computer to be communicated over a photonics-based quantum network. Developing such a technology is challenging, however, as it requires advanced techniques from at least three engineering disciplines—superconducting microwave electronics, quantum photonics, and a third discipline governing the microwave-to-optical transduction element. Read more
