Empowering the next breakthroughs in quantum technology
As quantum computing continues to advance, success hinges on the highest levels of control, coherence, and measurement. At Maury, we deliver the precision tools needed to unlock your quantum system’s full potential.
Maury’s robust range of quantum solutions are purpose-built to enable innovators to push boundaries and drive the future of quantum technology.
Maury solutions support:
- Impedance tuning optimized for harsh, low-temperature cryogenic conditions.
- Multi-channel RF synthesis with exceptional phase coherence for accurate qubit control and manipulation.
- Advanced power analysis to reveal detailed pulse characteristics.
From impedance tuners to RF synthesizers to real-time power sensors, Maury delivers the high-precision instrumentation and confidence needed to support the pioneers of quantum.
Learn more about Maury solutions for quantum computing
Cryogenic noise parameters extraction
Quantum components depend on ultra-low noise performance. Our cryogenic noise parameters measurement solution ensures low-noise amplifiers (LNAs) perform at their best. With Maury, your readout chain will reach the level of sensitivity quantum applications require.
At the core is our solid-state, automated impedance tuners, specifically designed for precise and reliable noise characterization. By efficiently varying impedance down to temperatures as low as 4 Kelvin, you can comprehensively evaluate the noise behavior of your cryogenic LNA.
Phase-coherent, multi-channel signal synthesis
Scalable quantum systems require stable, spectrally pure, phase-coherent RF sinusoidal carrier signals across many channels. Our multi-channel RF synthesizers deliver high-channel density (up to 32 channels) in a compact 1U chassis with exceptional relative channel-to-channel stability and low phase noise performance—empowering complex, multi-qubit quantum computing development.
Grow your qubit and channel count with confidence. With Maury synthesizers, you can trust in uncompromising fidelity no matter how complex your quantum architecture becomes.
Pulse profile characterization
Achieving precise qubit manipulation is more than just generating control signals—it’s also measuring and validating pulse profile characteristics to ensure every signal has the timing, shape, and power required for high-performance quantum operations. Delivering time resolution down to 100 picoseconds, pulse widths as narrow as 10 nanoseconds, and rise time as fast as 3 nanoseconds, our leading-edge power sensors and power meters are the ideal instruments to optimize your quantum system’s fast-switching RF and microwave pulses.
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