The coherent transduction between microwave and optical frequencies is critical to interconnect superconducting quantum processors over long distances. However, it is …
Making analogy with atomic physics is a powerful tool for photonic technology, witnessed by the recent development in topological photonics and non-Hermitian photonics based on …
A device capable of converting single quanta of the microwave field to the optical domain is an outstanding endeavor in the context of quantum interconnects between distant …
Superconducting microwave circuits with Josephson junctions, the major platform for quantum computing, can only reach the full capability when connected. This requires an …
Rare earth ions are known as promising candidates for building quantum light-matter interface. However, tunable photonic cavity access to rare earth ions in their desired host …
A quantum transducer converts an input signal to an output at a different frequency, while maintaining the quantum information with high fidelity. When operating between the …
B Zhang, J Wu, L Fan, Q Zhuang - arXiv preprint arXiv:2206.14682, 2022 - arxiv.org
Superconducting microwave circuits with Josephson junctions are a major platform for quantum computing. To unleash their full capabilities, the cooperative operation of multiple …
Quantum transduction and error correction are pivotal for advancing quantum communication, particularly in the optical frequency domain. Coherent transduction between …
Nonlinear photonics has provided a scientific cornerstone for a majority of modern technology during the past half-century, such as diversifying laser wavelengths …