Could the power of cosmic rays offer a new way to scan for structural defects?

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A start-up company headquartered in Estonia has developed a method of 3D-scanning using muon flux, which relies on subatomic particles to classify materials and objects. Could it be a game-changer for the industry?

Illustrated map of muon travel (Image: GScan) An illustration of how muons move through the atmosphere. (Image: GScan)

The company is called GScan, and it believes it has a chance to disrupt the construction 3D-scanning and modelling segments.

The process relies on muons 鈥� fundamental and subatomic particles similar to electrons 鈥� which are capable of passing through what humans perceive to be solid objects.

The company鈥檚 CEO, and one of its early investors, Marek Helm, spoke to Construction Briefing about the futuristic-sounding technology, and looked ahead at what might be next for GScan as it gets a foothold in the construction industry.

More on GScan鈥檚 muon flux technology

鈥淒on鈥檛 be ashamed!鈥� Helm said to this editor, who struggled to understand the high-tech process during a conversation. 鈥淚 also didn鈥檛 know what muons were before.鈥�

Soviet-era building in Paldiski, Estonia (Image: Adobe Stock) A former Soviet Union structure in Paldiski, Estonia. (Image: Adobe Stock)

GScan was founded in 2018, and Helm joined the company as an investor and supervisory board member in 2021. Since then, he鈥檚 had ample time to wrap his head around what he calls a revolutionary product and has become adept at translating it for the general public.

鈥淚t鈥檚 not science fiction, it鈥檚 science,鈥� Helm assured. 鈥淏ut, in human language, the muons are small cosmic particles generated 15km above the sea level, penetrating to the ground [at] light speed.鈥�

Helm said the particles are floating through the atmosphere and into the Earth at 2.2 microseconds per lifetime of one million particles. 鈥淵ou are talking per 1m2 per one minute, 10,000 muon particles are going through your body,鈥� added Helm.

He added that GScan developed hardware and software that can capture and analyse muons that have travelled through solid objects. The analysis, Helm said, returns information on what鈥檚 inside those objects.

GScan's Paldiski method for identifying nuclear waste (Image: GScan) Illustration of the GScan method on the Paldiski, Estonia, nuclear submarine base restoration project. (Image: GScan)

鈥淏asically, muons pass through the upper scanner, then we 鈥榗atch鈥� the same muons on the lower level of the detector,鈥� Helm explained.

GScan鈥檚 tech is able to determine how the muons scattered or altered trajectories during their travel, which in turn allows engineers to rely on the subatomic data to create a model of the scanned object.

鈥淲e have a map, or a particle root, and we can draw software, going back through these scattering angles, and through that we can create the image.鈥�

Originally, GScan鈥檚 muon flux technology found business by scanning shipping containers, particularly those traversing international borders. But the team has since realised solid applications in construction, infrastructure and civil engineering projects.

How GScan uses muon flux in construction applications

Helm told Construction Briefing that the data from the muons can illustrate what portions of an object are what (concrete, metal, soil), and it can help illustrate if there鈥檚 corrosion or gaps.

In particular, Helm said bridges and civil infrastructure are ideal applications for the tech. 鈥淭his is a game changer in the civil engineering world,鈥� he said.

He continued, 鈥淓ach location, deep inside a bridge 鈥� for example 鈥� we are measuring points, and we can go back and understand and measure the chemical composition of any materials on the location there. We can understand if it鈥檚 missing a crowning or if there was a void.鈥�

A windmill scanned with muon flux (Image: GScan) GScan works on using muon flux to scan a windmill. (Image: GScan)

One highly unique project GScan worked on was a reclamation project at a former Soviet Union nuclear submarine training centre in Paldiski, Estonia. The nuclear sub hub was once the largest of its type in the world.

鈥淭hirty years ago, the Russian military troops left, and before they did, they put all the nuclear waste inside and filled it with concrete,鈥� explained Helm. 鈥淎nd the [Estonian] government didn鈥檛 have any idea where the reactors are located, what waste is there, et cetera.

鈥淲e put our scanners below the [nuclear] sarcophagi and slice it with 1mm resolution, giving the exact 3D image.鈥�

Helm said with the information, the requisite demolition and recycling experts tasked with cleaning up the site were able to make informed and safer decisions.

What鈥檚 next for GScan and muon flux?

GScan was one of eight finalists in the Cemex Ventures Startup Competition at Trimble Dimensions 2024, though the firm fell just short of taking home a medal.

Winners of Construction Start Up Competition 2024 unveiled Three winners were announced at the final in Las Vegas, US

Helm admitted that the US market (where Dimensions is held annually) is not likely to be one of the next GScan enters due to its size, but he said they鈥檝e been engaged in conversations with the UK鈥檚 National Highways department, which GScan has worked with in the past (the firm has an office in Cambridge, England). He said there could be possibilities in Germany, too, where the company has also opened a satellite office in Munich.

Mark Helm Marek Helm, GScan CEO

Helm said GScan is taking a slowly-but-surely approach to expansion, as he recognises civil infrastructure technology can be a tough segment to crack into.

鈥淭he civil engineering world is very conservative. Everyone wants to test and validate,鈥� he said. 鈥淎nd we鈥檙e not saying that we are replacing current technologies; we鈥檙e just adding one very valuable dataset to these existing tools.鈥�

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