12 components tracked in the Quancord quantum supply-chain knowledge graph.
Refrigeration systems using adiabatic demagnetization for cooling to ultra-low temperatures, suitable for specific quantum and cryogenic applications.
Probe stations using closed-cycle refrigeration to achieve cryogenic temperatures without liquid helium or nitrogen, ideal for stable, continuous testing in ultra-low temperature environments.
Cryogenic circulators are non-reciprocal devices designed to route microwave or RF signals in a single direction under cryogenic conditions. These devices are essential in quantum computing and ultra-low temperature physics research to minimize signal interference and thermal noise.
Cryogenic isolators are passive devices used to prevent backflow of microwave or RF signals in cryogenic environments. They maintain signal directionality while minimizing thermal noise and signal reflection, ensuring signal integrity for sensitive quantum and low-temperature physics applications.
Cryogenic noise sources generate controlled levels of thermal noise in ultra-low temperature environments. They are essential for calibrating sensitive cryogenic measurement systems and verifying the performance of quantum devices.
Cryogenic probe socket designed for stable, precise connections in ultra-low temperature environments, facilitating advanced cryogenic research.
Probing stations for cryogenic environments, including devices for low-frequency noise measurement and testing in quantum and cryogenic applications.
Cryogenic terminations are precision microwave terminations designed to absorb RF and microwave signals in ultra-low temperature environments. They are essential for minimizing reflections and maintaining signal integrity in cryogenic and quantum computing applications.
Dilution refrigerators are cryogenic systems that achieve ultra-low temperatures necessary for operating superconducting qubits and other quantum devices.
Helium Compressors compress helium gas to enable cooling in cryogenic systems, essential for maintaining low temperatures in quantum experiments.
A cryostat designed for optical experiments at low temperatures, providing windows or optical access paths to enable the transmission of light into or out of the sample area, suitable for quantum optics and spectroscopy applications.
Pulse Tube Coolers are cryogenic devices that provide cooling without moving parts at the cold end, used in cryogenic systems for quantum technologies.