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An optical communications station capable of receiving high-speed data transmissions from space is set to be built in Western Australia.

The advanced communications ground station will be able to receive data from spacecraft anywhere between low-Earth orbit and the surface of the Moon.

It has the potential to support ground-breaking space projects, including NASA’s Artemis mission to land the first woman and next man on the Moon by 2024.

An artist’s impression of Artemis astronauts on the Moon. Credit: NASA.

The station will be installed at The University of Western Australia (UWA).

It is a joint initiative of UWA’s Astrophotonics Group, which is part of the International Centre for Radio Astronomy Research (ICRAR), as well as the ARC Centre of Excellence for Engineered Quantum Systems (EQUS) and UK industry partner Goonhilly Earth Station.

ICRAR-UWA Astrophotonics Group leader Dr Sascha Schediwy said optical communications is an emerging technology expected to revolutionise data transfer from space.

“Most current space communications rely on radio waves—it’s the same technology that brought us the voice of Neil Armstrong when the Apollo 11 mission landed on the Moon in 1969,” he said.

“Free-space optical laser communications has several advantages over radio, including significantly faster data rates and hack-proof data transfer.

“It’s the next-generation of space communications, and it’s likely to be how we’ll see high definition footage of the first woman to walk on the Moon.”

UWA’s rooftop observatory where the optical ground station will be installed.

The ground station was launched today to coincide with the world’s premier global space event, the International Astronautical Congress.

It will be part of a larger Australasian optical ground station network, led by the Australian National University, and with partners in South Australia, and New Zealand.

EQUS’ Director, Professor Andrew White, said the project, which could be the first ‘on-sky’ optical communications ground station in the Southern Hemisphere, is a prime example of fundamental research delivering real-world outcomes.

“EQUS delivers major impacts by encouraging and enabling our people to translate their research into tangible technologies and applications. We are building a culture of innovation, translation and commercialisation amongst quantum science researchers in Australia.”

Besides space communications, the ground station could also be used for applications ranging from cutting-edge fundamental physics to precision earth science and resource geophysics.

Professor White said the ground station would contribute to the development of the ‘quantum internet’—secure global data transmission using quantum-key distribution via optical links to quantum satellites.

He said it will stand as an example of cutting-edge science partnering with forward-looking businesses and delivering impacts for both.

The 0.7-metre optical telescope donated by Colin Eldridge that will be used for the ground station.

The station will use make use of a 0.7m observatory-grade optical telescope donated to ICRAR by Perth local Colin Eldridge.

It will be fitted with advanced atmospheric-noise suppression technology developed at UWA.

The station will be connected to Goonhilly’s supercomputer data centre in Cornwall via high-speed fibre.

Goonhilly handles data traffic and supports secure communications links for the world’s major satellite operators, including Intelsat, Eutelsat and SES Satellites.

The company is also a partner in the European Space Agency’s Lunar Pathfinder Mission, which is scheduled to launch in 2022.

Goonhilly Earth Station. Credit: Goonhilly.

Goonhilly chief executive Ian Jones said he was delighted to join forces with ICRAR and EQUS to establish an optical communications ground station in Western Australia.

“We’ve been at the forefront of satellite communications since the start of the space age, and this is driving it into the next generation of systems and technologies to support the enormous data volumes emanating from space missions,” he said.

“This data arises from science and other missions and, in the future, will come from Lunar and Mars missions that involve remote operations, robotics and AI.

“We’re proud to be joint trailblazers in the practical implementation of coherent optical communications.”

Dr Schediwy said WA’s ground station will help launch Australia’s space communications capacity.

“This will cement Australia’s position as a leader in optical data transmission, and position the nation to tap into the multi-billion-dollar space communications market,” he said.

The $535,000 station is expected to be ‘on-sky’ in early 2021 and open for business later that year.

More Information:

UWA’s AstrophotoNics Group

Focused on designing, building, and testing advanced photonic systems with applications in radio astronomy, optical astronomy, and space science, the group’s core technological capability is the long-distance transfer of stabilised optical-frequency and microwave-frequency signals across optical fibre networks and free-space laser links.

ARC Centre of Excellence for Engineered Quantum Systems (EQUS)

EQUS’s mission is to engineer the quantum future by building quantum machines that harness the quantum world for practical applications. They are tackling the most challenging research problems at the interface of basic quantum physics and engineering, and working with industry partners to translate these discoveries into practical applications and devices.


Goonhilly is a private UK-based company comprised of highly skilled professionals and experienced satellite communications engineers who have been involved in many of the innovations in satellite communications and space science in the past 30 years.


Dr Sascha Schediwy — ICRAR / University of Western Australia

Ph: +61 8 6488 3430                        E: Sascha.Schediwy@icrar.org

Pete Wheeler — Media Contact, ICRAR

Ph: +61 423 982 018                        E: Pete.Wheeler@icrar.org

Jess Reid — Media Contact, University of Western Australia

Ph: +61 8 6488 6876                       E: Jess.Reid@uwa.edu.au