Products

QuantX is located at the Lot Fourteen innovation precinct in the heart of the Adelaide CBD. We are providing a unique, sovereign industrial capability to support Australian Defence and Space programs in phased array radar, surveillance and intelligence, space and quantum technology and alternate PNT networks. Our on-site capabilities range from R&D, design and prototyping to assembly, production and testing facilities.

Quantum Clocks

You can have low SWaP and high-performance timing in the one product

C-ROC – Compact Rubidium Optical Clock

Microwave atomic clocks are the backbone of existing GNSS networks (such as GPS and Galileo) as well as being at the heart of numerous high-performance terrestrial communications, radar and broadcast applications. However, QuantX, in conjunction with the University of Adelaide, has made a breakthrough in which optical atomic clocks can provide enhanced performance over microwave clock and do it in a much smaller package. Find out more here >

Time Transfer

DISTRIBUTING STABLE TIMING SIGNALS THROUGH OPTICAL FIBRE AND FREE SPACE

T-Sync – Time Transfer Synchronisation

The ability to accurately synchronise remote clocks through time transfer is critical for position, navigation and timing. GPS has been widely available for decades and modern society has evolved a deep reliance on the precision timing and position signals it provides. Find out more here >

CryoClock

THE PUREST FREQUENCY SIGNAL SOURCE.

Cryoclock – Ultra-stable time and frequency signals

Cryoclock is the culmination of 20 years of research and now delivers the world’s purest microwave and RF signals in a reliable and autonomous package that is user friendly. Its output signals possess both ultra-low noise phase noise as well as ultra-high short and medium term frequency stability.
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Microwave Oscillators

THE PUREST FREQUENCY SIGNAL SOURCE.

X-LNO – Ultra-Low-Noise Microwave Oscillator

The X-LNO is a microwave reference oscillator that produces world-leading ultra-low phase noise reference signal in the X-band region. By exploiting the remarkably high Q of sapphire, the oscillator delivers a +10 dBm signal with phase noise below -165 dBc/Hz at 10 kHz offset.
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Quantum Magnetometers

EXTREME FIELD SENSING

The Q-Mag is a compact high-performance magnetometer in development that can passively detect extremely small magnetic anomalies. By controlling and reading out the quantum states of rubidium atoms in a vapour.
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