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The Canberra Times
The Canberra Times
Sarah Lansdown

ANU's new world-class physics building is future-proofed for 100 years

ANU Research School of Physics director Professor Tim Senden outside the new $220 million facility. Picture by Keegan Carroll

The Australian National University's newest building may look like a generic, glass-clad office building but it actually houses a world-class physics facility.

Phase one of the Research School of Physics redevelopment has been under construction for four years but has been designed to be fit-for-purpose for the next 100 years.

It is hoped it will enable the next generation of physics specialists to develop the science and technology to power the nation.

Research School of Physics director Professor Tim Senden said academics and technicians were in the process of moving into the $220 million building, which consolidates the existing nanofabrication and quantum physics facilities.

"This is the most sophisticated lab space ever built at an Australian university," Professor Senden said.

"The beautiful exterior disguises the complex interior."

World-class facility

Ten years ago a master plan for the precinct was designed with three building phases.

The new building includes a lecture theatre, function and office spaces, a large cleanroom and 25 individual stable labs.

The new cleanroom, an engineering space with very clean air which can be used for micro and nanofabrication, is replacing seven other clean rooms on campus.

"Bringing all those facilities together means that we can increase the quality of production to a level that's really world standard," Professor Senden said.

The stable labs were designed as independent shells within the building and have been built with the highest floor ratings to achieve the lowest vibration without moving to a remote location.

Acoustic engineers tested every component during construction to ensure the building complied with these high standards.

"All those things that will potentially impinge on precision measurements, to the best of our ability, we've reduced all those so that there shouldn't be any barriers to imagining even the most precise measurements that could be done at any lab in the world," Professor Senden said.

The cleanroom inside the new Research School of Physics building. Picture by Keegan Carroll
Inside the new ANU Research School of Physics. Picture by Keegan Carroll
One of the stable labs at the new ANU Research School of Physics building. Picture by Keegan Carroll
Inside the new ANU Research School of Physics. Picture by Keegan Carroll
Exterior of the new ANU Research School of Physics. Picture by Keegan Carroll
A lecture theatre at the new ANU Research School of Physics. Colours of the chairs were selected by the Quantum Random Number Generator. Picture by Keegan Carroll
The Heavy Ion Accelerator is located in the tall white tower as part of the ANU's nuclear physics facility. It will be redeveloped at a later stage of the master plan. Picture by Keegan Carroll
View of the base of the Heavy Ion Accelerator in ANU's nuclear physics facility. Picture by Keegan Carroll
Inside the ANU's nuclear physics facility. Picture by Keegan Carroll
Inside the ANU's nuclear physics facility. Picture by Keegan Carroll
Inside the ANU's nuclear physics facility. Picture by Keegan Carroll
Heavy Ion Accelerators chief executive Dr Thomas McGoram with the Space Radiation Beam Line at the ANU's nuclear physics facility. Picture by Keegan Carroll

The clean interior design disguises the many layers of technical services that have been hidden in the structure, including piping for 32 gases.

Professor Senden said the spaces are expected to be repurposed over the next 100 years to suit emerging research.

"Although it ended up being a very beautiful building, as you can see, most of the effort went into working out how to interlay 17 different layers of technical servicing.

"There's 16 kilometres of speciality piping, for example, and that's probably only a small fraction of the piping that's gone into the building."

Collaboration

Two-thirds of the school's work is in fundamental research, which enables it to respond to any challenges that come up through industry or government partnerships.

There also seven spin off companies in the school and partnerships with large companies including in the resources and energy sectors.

The school operates four major national facilities, including the 50-year-old Heavy Ion Accelerator building housed in the white tower next to the new building.

The accelerator, and several other specialist labs, are crucial for nuclear physics, which has been thrust into the spotlight thanks to the AUKUS agreement.

In response to the announcement that Australia would be investing in nuclear-powered submarines, various parts of the university have come together to discuss how it could contribute to the skills and strategy behind the deal.

They don't always agree - some within the university are against nuclear-powered submarine - but all are working towards providing a safe environment for the technology.

"For the last 18 months, across five colleges we've been meeting, sharing intel, thinking about the future and it's been a very productive thing," Professor Senden said.

"It's not a top down strategy. It's something that's grassroots. It's the real domain experts coming together around a common mission."

The school offers a graduate certificate and masters degree in nuclear regulation and technologies to help reskill defence and government personnel.

Professor Senden said government officials have been attending week-long training sessions on the nuclear fuel cycle and the impact on environmental regulation.

"We don't do weapons research, so we draw a line on that. We support the nation's interest, but we don't support the military interest."

Training for defence and industry will be part of the next phase of the school's redevelopment of engineering workshops and materials science. The third phase will be a revamp of the ageing nuclear physics building.

As the huge task of setting up the new facility continues, Professor Senden feels lucky that the university stayed the course with the project so they can hit the ground running post-pandemic.

"I think it's going to be a really magic space."

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