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Hannover Fair to see first demos of industrial quantum sensors from Q.ANT

23 May 2022

Next week’s expo to host Trumpf subsidiary’s novel apps for chemical, semiconductor, and engineering sectors.

Visitors to nezt week’s Hannover Messe (running from May 30 to June 2, 2022) will have the opprtunity to see to live demonstrations of the world’s first industrial-grade quantum sensors by Stuttgart-based start-up Q.ANT, a wholly owned subsidiary of high-tech company Trumpf.

The company will be showcasing particle sensors that are able to measure particles in gases, liquids and powders in ways that cannot be accomplished using current measuring technology.

At the technological heart of these sensors are quantum effects in excited light. Generated in targeted ways, these effects can be harnessed to analyze the size, shape and velocity of microparticles in one and the same measurement.

In turn, these measurements make it possible to acquire information that will facilitate new applications in the semiconductor, chemical and mechanical engineering industries. A number of companies from these sectors are already putting Q.ANT quantum sensors to the test. At Hannover Messe, Q.ANT will enable visitors to experience two industrial quantum-sensor applications in action for the very first time:

1. Measuring coffee powder

In collaboration with sensor specialist SICK, Q.ANT will be showcasing a quantum sensor that food manufacturers can use to check the quality of coffee. The sensor measures the size and shape of the grain, which is a key factor in determining how each particular coffee will taste.

In order to achieve the desired level of quality, the quantum sensor allows coffee producers to continuously monitor the grains during the industrial grinding process. Working together with a major food manufacturer, it has already been possible to make powder measurements. SICK now intends to distribute the sensor worldwide, paving the way for other future applications in the food sector, particularly in the powder processing industry;

2. Measuring biomass in algae reactor

Control and automation specialist Festo will also be showcasing an application that uses the Q.ANT quantum sensor in Hall 6. Festo uses the sensor to obtain precise, real-time information about the growth of organisms inside the reactor.

To provide this information, algae are conveyed to the sensor automatically and continuously through special microfluidic components made by Festo, such as pumps that can handle extremely small quantities of liquids with outstanding precision.

The quantum sensor is able to optically analyze individual cells in order to precisely determine the amount of biomass. It also checks the cells’ vitality with the help of artificial intelligence. The quantum sensor makes it possible to respond proactively to process events and take steps to regulate them in order to promote faster algae growth.

Algae have an extremely high photosynthetic efficiency in their natural environment, binding ten times more carbon dioxide than land plants. When algae are grown in bioreactors equipped with appropriate sensors, control technology and automation, this efficiency can be increased even further, reaching a hundredfold that of land plants.

In March 2022, Q.ANT took the helm of a consortium that has the task of building a demonstration and test system for photonic quantum-computer chips. The consortium has an initial budget of 50 million euros, some 42 million euros of which will come from the German Federal Ministry of Education and Research.

Optikos Corporation CeNing Optics Co LtdIridian Spectral TechnologiesBerkeley Nucleonics CorporationTRIOPTICS GmbHHÜBNER PhotonicsABTech
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