Quantum Computing

Empowering the next breakthroughs in quantum technology

As quantum computing advances, so does the need for cryogenic characterization, precision measurements, and high-density signal generation. At Maury, we deliver the best-in-class solutions needed to unlock your quantum system’s full potential.

Maury solutions support:

  • Cryogenic calibration standards for accurate S-parameter measurements of superconducting quantum devices.
  • Cryogenic impedance tuners for precise LNA noise parameter characterization below 4 K.
  • Multi-channel RF synthesizers with exceptional phase coherency and channel density for scalable qubit control.

The robust range of quantum solutions from Maury are purpose-built to enable innovators to push boundaries and drive the future of quantum technology. 

Cryogenic S-parameter Characterization

Cryogenic cables and components introduce temperature-dependent losses and reflections that can alter the signal reaching the qubit and impact measurement accuracy, since each qubit exhibits its own resonant frequency. Maury specialized cryogenic calibration standards improve S-parameter measurement accuracy within cryogenic environments.

Qubit Control Signal Generation

Quantum operations require precise microwave control signals with low phase noise, stable phase relationships, and high channel density. The HS9100 Series multi-channel RF synthesizers deliver phase-coherent, scalable signal generation for quantum control systems.

  • Available in 16- and 32-channel configurations
  • Industry-leading channel density
  • Highly phase-coherent across all integrated channels
  • Independently controlled channels
  • Thermally optimized for exceptional channel-to-channel stability

Cryogenic Noise Parameter Measurements

The CT-Series cryogenic impedance tuner enables accurate noise parameter measurements of cryogenic LNAs for modeling and characterization. Solid-state tuning technology delivers reliable, low-power operation at cryogenic temperatures.

  • Solid-state tuning technology
  • Operates below 4 K
  • Low power consumption (<0.2 mW)
  • Integrated temperature sensor and bias tee
Explore More

Related Resources

01

Maury Microwave Solutions for Quantum Computing

Learn how Maury Microwave solutions support superconducting quantum computing development through cryogenic S-parameter calibration, high-density RF signal generation, and cryogenic noise parameter characterization using specialized impedance tuners. 

02

Quantum Solutions Guide

Learn how Maury delivers optimal channel-to-channel phase coherency with multi-channel RF signal sources, which support the growing needs of quantum computing systems development as well as deployment of commercially available systems.

03

Cryogenic Noise Parameter Measurements

In this brochure, learn how Maury provides impedance tuning and noise parameters measurement extraction solutions optimized for use at cryogenic temperatures.

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