Unique superconducting and spin qubit sample holders and multi-stage filters that have been carefully designed for the highest performance and flexibility. Save months of DIY work with cryogenic electronic systems that were co-developed with the Niels Bohr Institute to perfection and have been field-proven in hundreds of leading research labs worldwide.
Microwave chip packaging system for up to 30 qubit processors. QCage offers a unique low-loss environment for operating superconducting resonators with Q factors as high as 200 million and transmon qubits with coherence times of longer than 200 microseconds.
Modular multi-board sample holder for spin-qubit chips and superconducting circuits with DC/low-frequency channels and high-frequency channels (GHz), offering flexibility and excelÂlent thermalization down to millikelvin
Compact multi-stage low-pass filter that rejects noise and ensures milÂlikelvin electron temperature in up to 48 signal lines going to the quantum electronics devices and other sensitive cryogenic and low-temperature electronic circuits.
A state-of-the-art controller designed for large-scale quantum computers.
A versatile low-frequency signal routing box with 240 software-controlled relays.
An extremely stable, low-noise, 24-channel, single rack unit DAC.
Reliable 24-channel fully shielded Fischer connector to BNC breakout box, with sample protection.
Auto-calibrated IQ mixing and local oscillator system, for signals up- and down- conversion, extending the OPX+ range to 18GHz.
FPGA-based controller for real-time quantum sequences, offering the lowest analog feedback latency and the shortest runtimes.
Ultra-low-noise 24-channel DAC, up to 25-bit resolution and 1MS/s, for DC and low-frequency control.
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