Аннотация:A basic element of a quantum network based on two single-mode waveguides is proposed with different frequencies connected by a solid-state qubit. Using a simple example of a possible superconducting implementation, the usefulness of the simplifications used in the general theoretical consideration has been justified. The non-classical field in a single-mode with a frequency of w1 is fed to the input of a qubit controller and transformed into a non-classical field in an output single-mode with a frequency of w2. The interface can establish a quantum connection between solid-state and photonic flying qubits with adjustable pulse shapes and carrier frequencies. This allows quantum information to be transferred to other superconducting or atomic-based quantum registers or chips. The peculiarities of the wave-qubit interactions are described, showing how they help to control the quantum state of the non-classical field. On this basis, the operating principles of solid-state and flying qubits for the future quantum information platforms are considered.