Key features
- Creates a stable working environment at the ultra-low temperature range necessary for superconducting qubits
- Uses a helium-3/helium-4 mixture to achieve and maintain a stable milli-Kelvin temperature
- Supports precise quantum signal measurements for qubit control and calibration
- Supports the operation of superconducting quantum computer systems and spin-based quantum devices
- Reduces environmental noise, ensuring stability for sensitive quantum experiments
- Allows integration of multiple wiring layers, RF electronics, and qubit control modules
- Suitable for quantum laboratories, HPC centers, and research institutes
Detailed description
- The LD Dilution Refrigerator Measurement System creates a stable working environment at the ultra-low temperature range necessary for superconducting qubits. The system uses a helium-3/helium-4 mixture to achieve and maintain continuous milli-Kelvin temperatures through a dilution mechanism in the mixing chamber.
- The device integrates a high-precision quantum signal measurement system, supporting qubit control and calibration. The system allows the operation of superconducting quantum computers and spin-based quantum devices in a stable cryogenic environment.
- The design minimizes environmental noise, ensuring high stability for sensitive quantum experiments. The architecture supports the integration of multiple layers of wiring, RF electronics, and qubit control modules, suitable for quantum laboratories, HPC centers, and research institutes.